JP3938085B2 - Radio correction clock and control method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a radio-controlled timepiece that receives and corrects external time data based on externally received radio wave information and a control method thereof.
[0002]
[Background]
A radio-controlled timepiece that receives radio information from the outside and corrects the time is known. Such a radio-controlled timepiece can correct the time by periodically receiving a radio wave, and therefore can provide a more accurate time indication than a normal quartz clock, and therefore, its demand has increased in recent years.
[0003]
In such a radio-controlled timepiece, the external time data obtained by radio wave reception is compared with the internal time data counted inside the timepiece, and the internal time data is corrected by the time difference, and the oscillating means according to the time difference There are some which have a logic slow / fast means for changing the frequency division ratio (frequency division value) of the oscillation signal generated by (see, for example, Patent Document 1).
In addition, the broadcast radio wave synchronization signal is extracted, the reference clock number input from the oscillator between the synchronization signals is compared with the normal clock number stored in advance, and the rate adjustment circuit is controlled based on the error. A watch that adjusts the oscillation frequency of a reference clock of an oscillator is also known (for example, Patent Document 2).
In each of these timepieces, the accuracy of normal timekeeping using an oscillation signal from a crystal oscillator or the like can be increased by adjusting the logic speed or adjusting the oscillation frequency.
[0004]
[Patent Document 1]
JP 2002-214372 A
[Patent Document 2]
Japanese Patent Laid-Open No. 5-87956
[0005]
[Problems to be solved by the invention]
However, according to the above prior art, the logical frequency is adjusted or the reference frequency is adjusted based on the data received at a certain point in time, and the next time the data is received, the logical speed or the reference is newly set based on the data at the time of reception. Since the frequency is adjusted, there is a problem that there is a possibility that the logic cannot be output accurately or the reference signal may not be output.
That is, the output of the crystal oscillator changes due to changes in the environment such as temperature. In addition, since reception processing of wireless information and the like consumes a large amount of power, a wristwatch or the like is normally limited to receiving about once a day. Therefore, during this reception interval, for example, when the weather is worse and the temperature is lower than the previous or next day, or when moving to a cold place on a business trip or travel, the difference from the wireless information at that time If you move to a warm area or the air temperature rises after performing logical slow / fast or frequency control based on the There was no problem.
[0006]
Furthermore, when it is determined by one reception, there is a possibility that the received data in the one reception is inaccurate due to external noise or the like, but in this case, an inaccurate adjustment or reference frequency adjustment is performed. Therefore, there is also a problem that an incorrect time is displayed until the next reception of radio waves.
[0007]
An object of the present invention is to provide a radio-controlled timepiece that can perform time display with high accuracy and a control method thereof.
[0008]
[Means for Solving the Problems]
  The radio-controlled timepiece according to the present invention includes an external radio information receiving unit that receives external radio information including time information, and at least an oscillation unit and a frequency division unit. The reference signal generated by the oscillation unit and the frequency division unit is used as a reference signal. The internal time counter that measures the internal time based on the external time data that is the time information received by the external wireless information receiver and the internal time data that is timed by the internal time counter are compared. An output time data comparison unit; a correction unit that corrects the internal time data based on the difference amount; a time display unit that displays time based on the internal time data; and an external wireless information receiving unit A reception information storage unit for storing at least a plurality of times each data of the time when the information is received and the difference amount at that time, the plurality of reception time data, andpluralA trend slowness / amount calculation unit that calculates a trend slowness / amount based on the difference amount data, and a logical slowness control unit that adjusts a frequency division ratio of the frequency divider according to the trend slowness / amount calculated by the trend slowness / amount calculation unit;A reception schedule control unit for controlling a reception schedule in the external wireless information reception unit, and detecting whether or not the tendency slow / fast amount exceeds a preset first set value and is equal to or less than a third set value The third set value is a value smaller than the first set value, and the logical slow / fast control unit has detected that the tendency slow / fast amount has exceeded the first set value in the difference amount detector. Is detected, the frequency division ratio of the frequency division unit is adjusted, and the reception schedule control unit receives the signal when the difference amount detection unit detects that the tendency rate is less than or equal to the third set value. Change the reception schedule so that the interval is longer than the default reception schedule.It is characterized by this.
  Here, the external wireless information receiving unit can be configured by an antenna and a receiving means for processing radio waves received by the antenna.Further, the first set value may be a value set to determine whether or not the calculated tendency slow / fast amount is large enough to require the logical slow / fast process. Further, the third set value may be a value set to determine whether or not the calculated tendency amount is too small to increase the timing error even when the reception interval is widened.
[0009]
  In the present invention, when the external wireless information is received by the external wireless information receiving unit, the received time information is the time data comparing unit and the internal time data measured based on the reference clock generated inside the electronic device. The difference amount is output by comparison, and each data of the difference amount and the reception time is stored in the reception information storage unit.
  Furthermore, according to the present invention, the trend rate is calculated based on the past received data, that is, based on the past reception times and the difference amount, and the frequency division ratio (frequency division value) of the frequency divider is corrected by the calculated value. Since the logic slow / fast control unit is provided, the error of the reference signal itself generated by the frequency dividing unit can be made extremely small, and the time of the reference signal is acquired until the time information based on the external wireless information is acquired. The time accuracy when measuring the time can be greatly improved.
  In addition, since the trend rate is calculated based on multiple times of data, it is more susceptible to temporary temperature changes or erroneous noise than when calculated based on data of only one time. Even if the correct amount of difference between the external time data and the internal time data cannot be detected because the received data has been received, the trend amount is not calculated with the single difference amount, but is calculated with multiple data. As a result, it is possible to perform more rapid and rapid processing with higher accuracy than in the case of calculating with only one received data.
  Moreover, if the tendency slow / fast amount is equal to or less than the first set value, the adjustment processing of the frequency division ratio of the frequency divider is not performed, and the processing is performed only when necessary, so that energy consumption can be reduced. Even if the adjustment process is not performed, if the difference is equal to or smaller than the first set value, it is determined that the difference amount is very small, so that the time measurement error can be suppressed to be very small.
  Furthermore, when the amount of trend is less than or equal to the third set value, since the reception interval is longer than the initial setting, in the radio correction watch, the number of radio wave reception processes with the largest energy consumption can be reduced. Energy consumption can be greatly reduced, and the duration of the watch can be extended.
[0010]
  The radio-controlled timepiece according to the present invention includes an external radio information receiving unit that receives external radio information including time information, and at least an oscillation unit and a frequency division unit. The reference signal generated by the oscillation unit and the frequency division unit is used as a reference signal. The internal time counter that measures the internal time based on the external time data that is the time information received by the external wireless information receiver and the internal time data that is timed by the internal time counter are compared. An output time data comparison unit; a correction unit that corrects the internal time data based on the difference amount; a time display unit that displays time based on the internal time data; and an external wireless information receiving unit A reception information storage unit for storing at least a plurality of times each data of the time when the information is received and the difference amount at that time, the plurality of reception time data, andpluralA trend frequency calculation unit that calculates a trend frequency adjustment amount based on the difference amount data; an oscillation frequency control unit that adjusts the oscillation frequency of the oscillation unit according to the trend frequency adjustment amount calculated by the trend frequency calculation unit;A reception schedule control unit for controlling a reception schedule in the external wireless information reception unit, whether or not the tendency frequency adjustment amount exceeds a preset first setting value and whether or not it is equal to or less than a third setting value. A difference amount detection unit for detecting, wherein the third set value is smaller than the first set value, and the oscillation frequency control unit is a difference amount detection unit whose tendency frequency adjustment amount exceeds the first set value. Is detected, the reception schedule control unit adjusts the oscillation frequency of the oscillation unit, and when the difference amount detection unit detects that the tendency frequency adjustment amount is equal to or less than a third set value, Change to a reception schedule in which the reception interval is longer than the default reception scheduleIt is characterized by this.
  Here, the external wireless information receiving unit can be configured by an antenna and a receiving means for processing radio waves received by the antenna. Further, the first set value may be a value set to determine whether or not the calculated tendency frequency adjustment amount is large enough to require the oscillation frequency adjustment processing. Furthermore, the third set value may be a value set to determine whether or not the calculated tendency frequency adjustment amount is so small that the time measurement error does not increase even when the reception interval is widened.
[0011]
  The present invention also includes an oscillation frequency control unit that calculates a trend frequency adjustment amount based on past received data, that is, a plurality of past reception times and difference amounts, and adjusts the oscillation frequency of the oscillation unit based on the calculated value. Therefore, the error of the reference signal itself generated by the oscillating unit can be very small, and the time when the time is measured with the reference signal until the time information based on the external wireless information is acquired The accuracy can be greatly improved.
  In addition, since the tendency frequency adjustment amount is calculated based on a plurality of times of data as in the above-described invention, the oscillation frequency can be adjusted with higher accuracy than when calculated based on only one time of data. .
  Further, if the tendency frequency adjustment amount is equal to or less than the first set value, the adjustment process of the oscillation frequency of the oscillation unit is not performed, and the process is performed only when necessary, so that energy consumption can be reduced. Even if the adjustment process is not performed, if the difference is equal to or smaller than the first set value, it is determined that the difference amount is very small, so that the time measurement error can be suppressed to be very small.
Further, when the trend frequency adjustment amount is equal to or less than the third set value, the reception interval is set longer than the initial setting, so that the number of times of radio wave reception processing with the largest energy consumption can be reduced in the radio wave correction watch. , Energy consumption can be greatly reduced, and the duration of the watch can be extended.
[0014]
  Here, calculation of the above-mentioned trend rateClubOr the trend frequency calculation part is logical slow / fast controlClubOr by the oscillation frequency control unit.RatioOr adopt only the data stored since the last time the oscillation frequency of the oscillator was adjusted,AmountIt is also preferable to calculate the tendency frequency adjustment amount.
  The difference between the received external time data and the internal time data measured based on the reference signal is affected by the accuracy of the reference signal. Therefore, before and after adjusting the frequency division ratio of the frequency division unit and the oscillation frequency of the oscillation unit, the accuracy of the reference signal is usually different, and therefore the value of the difference amount data is likely to be different. For this reason, it is usually sufficient to calculate the amount of trend adjustment and the amount of trend frequency adjustment based only on the data recorded after receiving the external wireless information after the previous adjustment, and this can reflect the accuracy of the current reference signal. High-precision adjustment can be performed.
  However, when calculating the tendency slow / slow amount and the trend frequency adjustment amount, the difference amount data and the adjustment amount data before adjustment can be taken into consideration. Accordingly, not only the data after adjustment but also the difference amount data before adjustment may be used to calculate the tendency slow / slow amount and the tendency frequency adjustment amount.
  In addition, when calculating the tendency slow / fast amount or the trend frequency adjustment amount based only on the data recorded after the previous adjustment, the difference amount data stored in the reception information storage unit is deleted, and the reception information storage unit May always store only the data after the previous adjustment, and use all the data stored in the storage unit for calculation. In this case, the pre-adjustment data erasure means for erasing the data before the previous adjustment stored in the reception information storage unit may be provided in the tendency slow / slow amount calculation unit or the trend frequency calculation unit.
  Alternatively, each data such as the difference amount data may be stored together with the reception date / time data, and the data after the previous adjustment date / time may be extracted from the recorded data and calculated without deleting the recorded data. In this case, only the data after the previous adjustment is extracted from the data stored in the reception information storage unit and adopted in the trend slow / slow amount calculation unit and the trend frequency calculation unit, What is necessary is just to respond | correspond by providing the data employment means after the last adjustment which calculates a tendency frequency adjustment amount.
[0015]
  Here, the present invention includes a reception number detection unit that detects the number of receptions of the external wireless information, and performs logical slow / slow control.ClubAlternatively, the oscillation frequency control unit divides the frequency of the frequency dividing unit when the number of receptions detected by the reception number detection unit exceeds a preset number of times or a preset number of times variable by the preset number of times variable means.RatioAlternatively, it is preferable to adjust the oscillation frequency of the oscillation unit.
  TendencyAmountAlternatively, the trend frequency adjustment amount may be calculated based on a plurality of data, that is, two or more data. However, if the number of reception times exceeds the set number of times, the adjustment is made at that time. , And can be calculated based on the number of data corresponding to the set number of times. If this number of times is set in advance according to the characteristics of the oscillation source (oscillator) incorporated in the watch, the adjustment amount can be adjusted based on the appropriate number of data according to the characteristics of the various watches. It is possible to calculate and perform logical adjustment and frequency adjustment.
  Further, if the timepiece is provided with a set number variable means and can be changed by the variable means, the set number can be automatically or manually adjusted according to the use environment of the timepiece. . As a result, the calculation of the adjustment amount, the logical adjustment, and the frequency adjustment can be performed with the optimum number of times according to the use environment of the user.
[0017]
  The present invention also provides a difference amount detection unit for detecting whether or not the difference amount data obtained by the time data comparison unit exceeds a preset second set value, and the difference amount data by the difference amount detection unit. And an internal time correction prohibiting unit that prohibits the correction of the internal time in the correction unit when it is detected that the second set value is exceeded,ClubAlternatively, the trend frequency calculation unit is configured to adjust the trend rate based on other difference amount data excluding the difference amount data exceeding the second set value.AmountIt is also preferable to calculate the tendency frequency adjustment amount.
  Here, the second set value may be a value set to determine whether or not the difference amount data is so large that there is a possibility that the received external time data includes noise. . In such an invention,TrendWhen the frequency adjustment amount exceeds the second set value, the internal time correction is prohibited, so that it is possible to prevent time correction by reception data that may contain noise, and time indication accuracy Can be prevented.
  Further, since the difference amount data is not used for calculating the trend slow / fast amount and the trend frequency adjustment amount, the accuracy of the trend slow / fast amount and the trend frequency adjustment amount can be increased.
[0018]
  The present invention also provides a difference amount detection unit for detecting whether or not the difference amount data obtained by the time data comparison unit exceeds a preset second set value, and the difference amount data by the difference amount detection unit. And an internal time correction prohibiting unit that prohibits correction of the internal time in the correction unit when it is detected that the second set value is exceeded, and the reception number detection unit sets the second set value to A difference count data that exceeds the number of receptions is not included in the number of receptions.ClubAlternatively, the trend frequency calculation unit is configured to adjust the trend rate based on other difference amount data excluding the difference amount data exceeding the second set value.AmountIt is also preferable to calculate the tendency frequency adjustment amount.
  In the present invention, the amount of tendencyTrendWhen the frequency adjustment amount exceeds the second set value, the internal time correction is prohibited, so that it is possible to prevent time correction by reception data that may contain noise, and time indication accuracy Can be prevented.
  Further, since the reception number counting prohibition unit that does not count the difference amount data as the number of receptions is provided, the difference amount data is calculated as a tendency slowness amount or a tendency frequency adjustment amount by adding new reception data. The accuracy of the tendency slow / slow amount and the tendency frequency adjustment amount can also be increased.
[0020]
At this time, the difference amount detection unit detects whether or not the difference amount data obtained by the time data comparison unit exceeds a preset fourth set value, and the reception schedule control unit When the amount detection unit detects that the difference amount data exceeds the fourth set value, it is preferable to change the reception schedule so that the initial reception schedule or the reception interval is shorter than the initial reception schedule. .
Here, the fourth set value is a large value of the calculated tendency slow / slow amount or oscillation frequency adjustment amount, and when there is a possibility that the reception data contains noise, the reception interval may be restored, By shortening the value, the value may be set to determine whether or not accurate reception data should be acquired.
In the present invention, even if the reception interval is widened, the reception interval can be restored or shortened again, so that accurate reception data can be acquired, and a decrease in time indication accuracy can be prevented.
[0021]
The present invention also includes a magnetic field detection unit that detects a magnetic field inside or outside the watch, and when the magnetic field detection unit detects the magnetic field, the external wireless information reception unit prohibits reception operation or invalidates received data. It is preferable to include a reception processing control unit for performing the above.
In radio-controlled timepieces, there are electromagnetic noises such as high-frequency noise and AC wave noise from the outside when receiving radio waves, and electromagnetic noise generated when the generator is built into the radio-controlled timepiece. There is a possibility that external wireless information cannot be received due to an influence on the external wireless information receiving unit, or noise is added to the wireless information and erroneous data is received.
In the present invention, when a magnetic field (electromagnetic noise) is detected by the magnetic field detector, a reception processing control unit that prohibits reception operation or invalidates received data is provided, so that electromagnetic noise is generated. In addition, it is possible to save energy by not performing useless reception processing, and it is possible to prevent time adjustment and the like from being performed based on external wireless information affected by noise.
[0023]
In the present invention, the plurality of reception time data and difference amount data may not be continuously received data, and may not be able to receive radio waves due to electromagnetic noise or the like in between. Data may be stored by receiving a predetermined number of times including before and after that number of times.
Moreover, in this invention, it is preferable to have a setting change part which changes the setting of at least any one setting value of each said setting value.
If such a setting change unit is provided, the user can freely change and set each setting value used at the time of each determination according to his / her own usage status, external environment, etc. It can be carried out.
[0024]
  The control method of the present invention includes an external radio information receiving unit that receives external radio information including time information, and at least an oscillation unit and a frequency division unit, and is based on a reference signal generated by the oscillation unit and the frequency division unit. A radio-controlled timepiece having an internal time counter for measuring internal time, and external time data as time information received by the external wireless information receiver and an internal time measured by the internal time counter A time data comparison step of comparing time data and outputting the difference amount, a time data correction step of correcting the internal time data based on the difference amount, and external wireless information received by the external wireless information receiving unit A reception information storage step of storing at least a plurality of times each data of the time and the difference amount at that time, the plurality of reception time data, andpluralA slow / slow amount calculation step of calculating a tendency slow / slow amount based on the difference amount data; and a logical slow / slow control step of adjusting a frequency division ratio of the frequency divider using the trend slow / slow amount;A reception schedule control step for controlling a reception schedule in the external wireless information receiving unit, and whether or not the tendency slow / fast amount exceeds a preset first set value and whether or not it is equal to or less than a third set value. The third set value is a value smaller than the first set value, and the logical slow / fast control step is such that the tendency slow / fast amount exceeds the first set value in the difference amount detecting step. Is detected, the frequency division ratio of the frequency division unit is adjusted, and the reception schedule control step receives the signal when the difference amount detection step detects that the tendency amount is less than or equal to the third set value. Change the reception schedule so that the interval is longer than the default reception schedule.It is characterized by this.
[0025]
  Further, the control method of the present invention includes an external radio information receiving unit that receives external radio information including time information, and at least an oscillation unit and a frequency division unit, and a reference signal generated by the oscillation unit and the frequency division unit. A time correction unit having an internal time counter for measuring an internal time based on the external time data received by the external wireless information receiver and the internal time counter A time data comparison step of comparing the internal time data and outputting the difference amount, a time data correction step of correcting the internal time data based on the difference amount, and external radio information by the external radio information receiving unit. A reception information storing step of storing at least a plurality of times each data of the received time and the difference amount at that time, the plurality of reception time data, andpluralA trend frequency calculation step of calculating a trend frequency adjustment amount based on the difference amount data; an oscillation frequency control step of adjusting the oscillation frequency of the oscillation unit using the trend frequency adjustment amount;A reception schedule control step for controlling a reception schedule in the external wireless information reception unit; whether the tendency frequency adjustment amount exceeds a preset first setting value; and whether the tendency frequency adjustment amount is equal to or less than a third setting value. A difference amount detecting step for detecting, wherein the third set value is smaller than the first set value, and the oscillation frequency control step is such that the tendency frequency adjustment amount exceeds the first set value in the difference amount detecting step. If it is detected that the trend frequency adjustment amount is equal to or less than the third set value in the difference amount detection step, the reception schedule control step adjusts the oscillation frequency of the oscillation unit. Change to a reception schedule in which the reception interval is longer than the default reception scheduleIt is characterized by this.
[0027]
Also in each of these control methods, the same operational effects as the inventions of the radio-controlled timepiece, such as the operational effects described above, can be achieved.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
FIG. 1 shows the circuit configuration of the radio-controlled timepiece 1 of the first embodiment.
The radio-controlled timepiece 1 is an antenna 21 that receives a long-wave standard radio wave (external wireless information) on which time information is superimposed, and a receiving unit that processes the long-wave standard radio wave received by the antenna 21 and outputs it as time information (time code). Receiving circuit 22, a data storage circuit 23 for storing time information output from the receiving circuit 22, a control circuit 24, a display driving circuit 25 for controlling driving of a time display unit 28 for displaying time, and a time display Time constituted by a hand position detection circuit 26 for detecting the hand position of the hand of the unit 28, a battery 27 as a power source for driving each circuit, hands such as an hour hand, a minute hand, a second hand and a motor for driving the hand. The display unit 28 is provided.
[0029]
The antenna 21 is configured by a ferrite antenna or the like in which a coil is wound around a ferrite rod.
The receiving circuit 22 includes an amplifying circuit, a bandpass filter, a demodulating circuit, a decoding circuit, and the like (not shown), extracts time information (time code) composed of digital data from the received radio wave and stores it in the data storage circuit 23.
Accordingly, the antenna 21, the receiving circuit 22 and the data storage circuit 23 constitute an external wireless information receiving unit.
[0030]
The time information stored in the data storage circuit 23 is processed by the control circuit 24. The configuration of the control circuit 24 is shown in FIG.
The control circuit 24 includes an oscillating circuit 51 as an oscillating unit, a frequency dividing circuit 52 as a frequency dividing unit, a time counter 53, a comparison circuit 54, a logical slow / fast control unit 55, a trend slow / sudden amount calculating unit 56, a difference amount detecting unit 57, The reception control unit 60 and the storage unit 70 are provided.
The reception control unit 60 includes an internal time correction control unit 61, an internal time correction prohibition unit 62, and a reception schedule control unit 63, which are correction units.
The storage unit 70 includes a reception information storage unit 71, a reception schedule storage unit 72, and a set value storage unit 73.
[0031]
The oscillation circuit 51 oscillates a reference oscillation source 50 such as a crystal resonator at a high frequency, and the frequency dividing circuit 52 divides the oscillation signal and outputs it as a predetermined reference signal (for example, a signal of 1 Hz). The time counter 53 counts this reference signal and measures the current time. Therefore, each of the circuits 51 and 52 and the counter 53 constitutes an internal time counter for measuring the internal time. Each time the time counter 53 counts up, a drive signal is output to the display drive circuit 25 to drive the display unit 28 including a pointer and a stepping motor.
The position of the pointer is detected by the hand position detection circuit 26 and output to the comparison circuit 54.
[0032]
The comparison circuit 54 determines whether the time information (external time data) stored in the data storage circuit 23 is correct time data, and if it is correct time data, the hand position of the hand position detection circuit 26, that is, the internal position data. A difference amount from the time data (current time data) is output. Therefore, the comparison circuit 54 constitutes a time data comparison unit.
As a method for determining whether or not the received time information is accurate, various methods used in conventional radio-controlled timepieces can be employed. For example, if there is a non-existing time or day, such as 68 minutes, and each time data represents an expected time, that is, if it is time data received continuously, Therefore, a method for confirming whether the time data is accurate from the point of whether each data is such time can be adopted.
In the present embodiment, the hand position data of the hand position detection circuit 26 is used as the internal time data, but the output data of the time counter 53 may be used. In this case, the output of the time counter 53 may be input not only to the display drive circuit 25 but also to the comparison circuit 54. When such a configuration is adopted, the needle position detection circuit 26 is not necessarily provided.
[0033]
The internal time correction control unit 61 corrects the value of the time counter 53 based on the difference amount output from the comparison circuit 54 and corrects the time display on the display unit 28 via the display driving circuit 25. Further, the internal time adjustment control unit 61 outputs each data of the difference amount and the time correction time, that is, the time when the external wireless information is received, to the difference amount detection unit 57.
The difference amount detection unit 57 compares the difference amount data with each set value stored in the set value storage unit 73, and as a result, performs a predetermined process.
That is, the difference amount detection unit 57 first outputs a predetermined signal to the internal time correction prohibition unit 62 when the difference amount data exceeds the second set value. As the second set value, for example, a larger difference amount is set such that the possibility of occurrence in a quartz watch, which is generally about 20 seconds per month, such as 30 seconds / day, is very low. Therefore, if the difference between the received external time data and the internal time data exceeds the second set value, there is a possibility that the received data has received wrong data such as noise, so that reception Time correction based on data is set to be prohibited.
Therefore, the internal time correction prohibiting unit 62 prohibits the time correction processing by the internal time correction control unit 61 when the difference amount data exceeds the second set value.
However, if the user operates the external operation unit 29 such as the crown or the button to instruct forced reception, the time instruction of the internal time data may be shifted from the actual time, so there is a possibility that the forced reception has been instructed. Therefore, even if the difference in received data exceeds the second set value, the internal time adjustment prohibition unit 62 is set not to prohibit time adjustment by the internal time adjustment control unit 61.
[0034]
Further, the difference amount detection unit 57 stores each data of the difference amount and the time correction time, that is, the time when the external wireless information is received, in the reception information storage unit 71 except when the difference amount exceeds the second set value. To do.
In the reception information storage unit 71, as shown in FIG. 3, each data of reception timing and difference amount is stored retroactively from the latest reception time to the past seven times. Further, a time correction value (second / day) obtained by the difference amount (second) / reception interval (day) is also calculated and stored. In FIG. 3, the data for the date “2002/4/3” is not described, but this is because the radio wave reception on that day failed and there is no data.
When the difference amount exceeds the second set value, each data is not stored in the reception information storage unit 71. Therefore, when the number of receptions is detected based on the reception data stored in the reception information storage unit 71, since the reception data is not stored and is not counted as the number of receptions, the difference amount detection unit 57 determines that the difference amount is the second difference amount. It also functions as a reception count counter that does not count the number of receptions when the set value is exceeded.
[0035]
Further, the difference amount detection unit 57 detects the number of reception data stored in the reception information storage unit 71, that is, the number of receptions, and when the number exceeds a set value, for example, six times, that is, seven reception data. Is stored, the tendency slow / slow amount calculation unit 56 is operated, and the logical slow / slow control unit 55 and the trend slow / slow amount calculation unit 56 adjust the frequency division ratio (frequency division value) of the frequency divider 52. To do.
However, in the present embodiment, the difference amount detection unit 57 operates the tendency slow / slow amount calculation unit 56 only when the average value of the time correction amount in the received data, that is, the trend slow / fast amount exceeds the first set value. It is configured to perform logical slow / fast processing.
Here, the first set value is set to, for example, a minimum / sudden amount that can be adjusted by the logic slow / fast control unit 55. In this embodiment, as described later, since correction can be made in units of 0.264 (seconds / day), the first set value is set to 0.264 (seconds / day). This is because, when the amount of trend is less than or equal to the first set value, the timing error is very small and the necessity for adjustment is low, and the error is less than the unit that can be actually adjusted. This is because there is a possibility.
[0036]
Further, the difference amount detection unit 57 detects whether the average value of the time correction amount stored in the reception information storage unit 71, that is, the tendency rapidity amount is equal to or less than the third set value. The reception schedule control unit 63 is instructed to increase the reception interval. Here, the third set value is set to a value that can suppress the time measurement error even if it is not received, and is set to 0.264 (seconds / day), which is the same as the first set value, for example. In this way, if the trend rate is as small as the first set value or less, for example, the initial schedule for receiving once a day, even if the reception interval is increased once in two days, etc. This is because the timing error can be kept small, and the reception interval can be increased.
[0037]
Further, the difference amount detection unit 57 detects whether or not the difference amount of the received data exceeds the fourth set value. If the difference amount exceeds the fourth set value, the initial reception schedule or reception interval is initial. The reception schedule control unit 63 is instructed to change the reception schedule to be shorter than the set reception schedule.
Here, the fourth set value may be set to the difference amount data that needs to be received a plurality of times in order to determine whether the difference amount of the received data is large and the logical slow / fast process is necessary. For example, it is set to 30 seconds / day, which is the same as the second set value. As the fourth setting value, two types of setting values (4-1 setting value, 4-2 setting value) are provided, and when the difference amount exceeds the 4-1 setting value, the initial schedule is restored. When the 4-2 set value larger than the 4-1 set value is exceeded, the schedule may be set to be changed to a schedule having a shorter reception interval than the initial schedule. The 4-1 set value is, for example, 30 seconds / day, and the 4-2 set value is, for example, 60 seconds / day.
[0038]
The reception schedule control unit 63 is configured to select and change the reception processing schedule in the reception circuit 22 from the schedule information stored in the reception schedule storage unit 72.
That is, in the present embodiment, five types of reception schedule information from schedule information A to E are registered in advance in the reception schedule storage unit 72 as shown in FIG. The reception schedule control unit 63 selects appropriate reception schedule information A to E based on an instruction from the difference amount detection unit 57, and controls the operation of the reception circuit 22 based on the information A to E.
When the user operates the external operation unit 29 such as a crown or button to instruct forced reception, the reception schedule control unit 63 immediately activates the reception circuit 22 regardless of the reception schedule, and external wireless communication is performed. Receive information.
[0039]
Each set value (first to fourth set values) used for determination by the reception schedule control unit 63 is stored in the set value storage unit 73.
[0040]
The trend slowness / amount calculation unit 56 is operated in accordance with an instruction from the difference amount detection unit 57 and calculates a trend slowness / steep amount based on the reception timing data, the difference amount data, and the time correction value stored in the reception information storage unit 71. To do. In the present embodiment, as described above, the average value (seconds / day) of the time correction values stored in the reception information storage unit 71 is calculated as the tendency slow / slow amount.
[0041]
As shown in FIGS. 5 and 6, the logic slow / fast control unit 55 counts the output from the frequency dividing circuit 52 including a plurality of frequency dividers 131 that sequentially divide the source oscillation signal from the oscillation circuit 51. And a logic slow / fast timing pulse forming circuit 150 that forms a logic slow / fast timing pulse (FVCW) based on a signal from the timer 140, and a signal delay absorption that outputs a signal QQQ having no delay or a small delay with respect to the source signal. A circuit 160, a logic slow / fast pulse forming circuit 170 for forming a logical slow / fast pulse VCW as an activation control signal based on the output signal QQQ from the signal delay absorbing circuit 160, and a predetermined division of the frequency divider 52 based on the logical slow / fast pulse VCW. Slow / steep provided with a frequency dividing circuit SET / RESET circuit 180 which is a frequency dividing circuit control circuit for setting the frequency divider 131 to a set state or a reset state. It is configured to include a providing means.
Then, the frequency dividing circuit SET / RESET circuit 180 controls each frequency divider 131 according to the tendency slow / fast amount input from the trend slow / fast amount calculating unit 56, and sets the frequency dividing ratio (frequency dividing value) of the frequency dividing circuit 52. It is adjusted.
[0042]
Each frequency divider 131 of the frequency dividing circuit 52 is configured to divide the clock input signal (1/2) and output it from the output terminal Q. Accordingly, by connecting the output Q of each frequency divider 131 in series as the clock input CL of the next frequency divider 131, 32 KHz (32768 Hz) → 16 KHz (16384 Hz) → 8 KHz (8192 Hz) → 4 KHz (4096 Hz) → 2 KHz (2048 Hz) → 1 KHz (1024 Hz) → 512 Hz →... 1 Hz, the source oscillation signal is sequentially divided and finally a 1 Hz signal is output.
[0043]
Each frequency divider 131 includes a set terminal S and a reset terminal R. When an H level signal is input to the set terminal S, the output Q is forcibly set to an H level signal, and the reset terminal R When an H level signal is input to the output Q, the output Q is forcibly set to an L level signal. Further, the frequency divider 131 that outputs the 2 KHz frequency division signal F2K is provided with a terminal M that outputs a signal F2KM obtained by advancing the frequency division signal of 2 KHz by ¼ period. The frequency divider 131 that outputs the 1 KHz frequency-divided signal F1K is provided with a terminal XM that advances the frequency-divided signal of 1 KHz by a quarter period and outputs an inverted signal XF1KM.
[0044]
The timer 140 is configured to be able to count the time set using the output signal from the frequency divider circuit 52 (1 Hz in the present embodiment). Specifically, in this embodiment, the timer 140 is set as a 10-second timer, and when 10 seconds are counted using the timer 140, the timer 140 is configured to output a signal to the logic slow / fast timing pulse forming circuit 150. ing.
The logical slow / fast timing pulse forming circuit 150 is configured to output a logical slow / fast timing pulse (FVCW) that becomes active (H level) at a timing of every 10 seconds based on an output signal from the timer 140.
[0045]
The logic slow / fast timing pulse (FVCW) is input to the signal delay absorption circuit 160. The signal delay absorption circuit 160 includes a prior change signal generation circuit 165 and a change timing synchronization circuit 161.
The prior change signal generation circuit 165 includes an OR gate 166 and NAND gates 167 and 168. The OR gate 166 outputs a logical sum signal B of the signal F2KM and the signal XF1KM. The NAND gate 167 receives the logical sum signal B and the output C of the NAND gate 168. The output of the NAND gate 167 is input to the NAND gate 168 together with the logic slow / fast timing pulse (FVCW), and the NAND gate 168 is configured to output the prior change signal C.
[0046]
The change timing synchronization circuit 161 is configured by a flip-flop in which the prior change signal C is used as a data input, and an 8 KHz signal TTT, which is the output of the second-stage frequency divider 131 from the source signal, is used as a clock input. ing. For this reason, the change timing synchronization circuit 161 outputs a signal QQQ obtained by changing the change of the prior change signal C in synchronization with the 8 KHz signal.
The logic slow / rapid pulse forming circuit 170 receives the output signal QQQ from the change timing synchronization circuit 161 of the signal delay absorption circuit 160 and the signal of the source oscillation signal 32 KHz, and forms a one-shot pulse having a width corresponding to a half cycle of 32 KHz. Then, it is configured to output as a logical slow / rapid pulse VCW which is an activation control signal. Specifically, the signal E is formed by using the output signal QQQ and the source oscillation signal A, and the logic E / Q pulse (VCW) is formed by inputting the signal E and the signal QQQ to the NOR gate.
[0047]
The signal TTT input to the change timing synchronization circuit 161 and the signal A input to the logic slow / fast pulse forming circuit 170 are supplied to the circuits 161 and 170 only when the logic slow / fast pulse (FVCW) is an H level signal. The power consumption is reduced compared to the case where each signal is always input. Specifically, an AND gate 171 to which a 32 KHz source signal and a logic slow / fast timing pulse (FVCW) are input, and an AND gate 172 to which an 8 KHz signal and a logic slow / fast timing pulse (FVCW) are input are provided. The outputs of these AND gates 171 and 172 may be the signal A and the signal TTT.
The frequency dividing circuit SET / RESET circuit 180 inputs a pulse signal to the set terminal S or the reset terminal R of each frequency divider 131 in accordance with the tendency slow / fast amount from the trend slow / fast amount calculation unit 56, and each frequency divider 131. Configured to be set or reset.
[0048]
In the logic slow / fast controller 55 having such a configuration, since the five frequency dividers 131 can be set and controlled to be in a reset state, it becomes a 5-bit logic slow / fast device, and is configured to be able to adjust the slow / fast amount in 32 steps. Yes. Here, in this embodiment, the half cycle of the signal F16K is set to one step, and the slow / rapid processing is performed at a cycle of 10 seconds, so that 0.264 (seconds / day) can be corrected for each step. Yes. For this reason, when the amount of rapidity is set so that it can be adjusted in 32 steps from Step-16 to Step + 15, in the case of Step-16, 16 steps (that is, 4.224 seconds / day) compared to Step0. It is set to be delayed, and in the case of step +15, it is set to advance 15 steps (that is, 3.96 seconds / day).
[0049]
In operation, since the logical slow / fast pulse (VCW) is normally an L level signal, the frequency dividing circuit SET / RESET circuit 180 inputs the L level signal to the set terminal and the reset terminal of each frequency divider 131. Therefore, each frequency divider 131 sequentially divides and outputs the source oscillation signal without being forcibly set or reset.
When the operation is started and a 1 Hz signal is output from the frequency dividing circuit 52, the 10-second timer 140 is started, and the 1 Hz output is counted by the timer 140. Then, when 10 seconds have elapsed by the timer 140, the logic slow / fast timing pulse forming circuit 150 outputs a logic slow / fast timing pulse (FVCW) that is activated (H level) at 10-second intervals according to the signal from the timer 140. To do.
[0050]
When the logical slow / fast timing pulse (FVCW) becomes H level, the prior change signal generation circuit 165 inputs the prior change signal C to the change timing synchronization circuit 161. Here, the prior change signal C is formed by using the signal F2KM, the signal XF1KM, etc., but these signals are formed by the fourth and fifth stage frequency dividers 131 from the source oscillation signal. When the drive voltage of the frequency divider circuit 52 is low, the delay in each frequency divider 131 is accumulated, and the signal C includes a larger delay (for example, about 15.3 μsec or more) than the source oscillation signal. .
The signal C is input to the change timing synchronization circuit 161, and the change timing is output as a signal QQQ in synchronization with the signal F8K which is a low delay signal with a small delay.
[0051]
That is, the signal C changes from the H level to the L level every 10 seconds by the logic slow / fast timing pulse (FVCW). However, this change timing is delayed by a half cycle or more with respect to the source oscillation signal because each signal F2KM and signal XF1KM includes a delay.
On the other hand, the prior change signal generation circuit 165 changes the signal C from the H level to the L level after three cycles of the signal F8K from the time when the logic slow / fast timing pulse (FVCW) changes to active (H level signal). The signal QQQ is changed from “H” to “H” after four cycles of the signal F8K from the time when the logical slow / fast timing pulse (FVCW) changes from “H” to “L” after one cycle. It is set to change to “L”. At this time, the output QQQ from the change timing synchronizing circuit 161 has almost no delay with respect to the source signal because the low delay signal (8 KHz) to be synchronized has little delay with respect to the source signal. The signal delay is absorbed. In the change timing synchronization circuit 161, when the signal C is delayed by one cycle or more of the low delay signal, the signal QQQ cannot be changed at the timing. Therefore, the signal QQQ can be reliably changed at the above timing.
[0052]
Since the logic slow / rapid pulse forming circuit 170 uses the signal QQQ with little delay with respect to the source signal, the logic slow / rapid pulse (VCW) can be reliably output.
When a logical slow / fast pulse (VCW) is output at an interval of 10 seconds, the setting data (trend slow / fast amount) calculated by the trend slow / slow amount calculation unit 56 is read, and each frequency divider 131 is read according to this setting. An H level signal is appropriately input to the set terminal S and the reset terminal R, and each frequency divider 131 to which the H level signal is input is forcibly set (H level) or reset (L level). The slow / slow process, that is, the division ratio is adjusted.
[0053]
The operation of the radio-controlled timepiece 1 having such a configuration will be described with reference to the flowcharts of FIGS.
The control circuit 24 measures the current time by counting a reference clock of 1 Hz or the like output via the oscillation circuit 51 and the frequency dividing circuit 52 with the time counter 53 in a normal time. Then, with the change of the counter value of the time counter 53, a driving pulse is output from the display driving circuit 25 to the stepping motor of the display unit 28, and each pointer is operated.
[0054]
On the other hand, when the reception control unit 60 starts operation, first, the variable N1 indicating the number of receptions is set to the initial value 0, and the variable N2 indicating the selected reception schedule is set to the initial value 0 (Step 1; S ”). Further, the reception schedule control unit 63 selects the reception schedule information A of the initial setting value from the reception schedule information A to E stored in the reception schedule storage unit 72, and receives a radio wave once a day. Control (S2).
[0055]
Subsequently, the reception schedule control unit 63 determines whether or not there is a forced reception instruction by the external operation unit 29 (S3A). If there is no instruction for forced reception, it is determined whether or not the reception time has been reached (S3B). Then, when there is an instruction for forced reception (S3A) or when the reception time is reached (S3B), the reception schedule control unit 63 drives the reception circuit 22 to perform radio wave reception processing (S4).
For example, since the schedule information A (once / day), which is an initial setting value, is set immediately after the start, the current time detected by the hand position detection circuit 26 is set, for example, every morning At 2 o'clock, the reception schedule control unit 63 drives the reception circuit 22 to perform radio wave reception processing (S4).
[0056]
When the receiving circuit 22 is activated, the standard radio wave is received by the antenna 21, and time data (time information) is stored in the data storage circuit 23 via the receiving circuit 22. The reception schedule control unit 63 stops the reception circuit 22 when the reception circuit 22 is operated for about 3 minutes and time information for 3 frames is received.
Then, the comparison circuit 54 checks whether or not the time information stored in the data storage circuit 23 is accurate time data, and determines whether or not the reception is successful (S5).
[0057]
If it is determined in S5 that the reception is successful, the comparison circuit 54 calculates the difference between the received time information and the current time detected by the hand position detection circuit 26 and outputs the difference to the internal time correction control unit 61.
The internal time correction control unit 61 outputs the difference amount, reception time, that is, correction time data to the difference amount detection unit 57. Then, the difference amount detection unit 57 compares the difference amount data and the like with the set value stored in the set value storage unit 73, and performs data storage, time correction processing (S6), schedule change, and logical slow / fast processing (S7). Run sequentially.
[0058]
In the data storage and time correction process (S6), as shown in FIG. 8, the difference amount detection unit 57 first determines whether or not the difference amount is larger than the second set value (S61).
As described above, the second set value has a very large error, for example, 30 seconds / day. Here, when the difference amount is larger than the second set value, the information is output to the internal time correction prohibition unit 62.
The internal time adjustment prohibition unit 62 determines whether or not the reception is forced (S62). If it is not forced reception, there is a high possibility that the received data contains noise, so the internal time adjustment prohibition unit 62 prohibits internal time correction by the internal time correction control unit 61 (S63).
[0059]
On the other hand, if it is determined in S61 that the difference amount is equal to or smaller than the second set value, the difference amount detection unit 57 receives the difference amount and time correction value data and the reception time, that is, correction time data. The information is stored in the information storage unit 71 (S64). In addition, since the internal time correction control unit 61 is not prohibited from being corrected by the internal time correction prohibition unit 62, the data of the time counter 53 is corrected using the difference amount data, and the display unit 28 is connected via the display drive circuit 25. The current time display is corrected (S65).
The reception control unit 60 adds 1 to the number of receptions N1 because the first reception is performed (S66). Of course, in the state where the internal time correction is prohibited, the correct time data cannot be received, and therefore the number of receptions is not counted up.
This completes the data storage and time correction process (S6).
[0060]
Next, schedule change and logical slow / fast processing are performed (S7).
First, as shown in FIG. 9, the difference amount detection unit 57 determines whether the difference amount is larger than a fourth set value (S71). As described above, the fourth set value is, for example, 30 seconds / day, which is the same as the second set value. In the present embodiment, the fourth set value is divided into two stages, and the fourth set value (4-1 set value) and the 4-2 set value (60 seconds / day) compared in S71. And are set.
When it is determined in S71 that the difference amount is equal to or less than the fourth set value (= 4-1 set value), the difference amount detection unit 57 determines whether the number of receptions N1 is 7 or more (S72). . If it is determined that the number is 7 or more, a logical slow / fast process is executed (S73).
[0061]
On the other hand, if it is determined in S71 that the difference amount is larger than the fourth set value, the difference amount detection unit 57 further determines whether the difference amount is larger than the 4-2 set value (S74). Since the 4-2 set value is, for example, 60 seconds / day, if the difference amount is larger than this, there is a possibility that the logical slow / fast process must be performed immediately. Therefore, the difference amount detection unit 57 instructs the reception schedule control unit 63 to select the reception schedule information E so that the difference interval data can be collected at an early stage by shortening the reception interval and the logical slow / fast processing can be executed. S75).
If the set value does not exceed the 4-2 set value, it is determined that the reception should be performed at the initial schedule interval, and the difference amount detection unit 57 selects the reception schedule information A for the reception schedule control unit 63. An instruction is given (S76).
Then, the number of times of reception is set again to the initial value “0”, and seven new receptions are performed. When the reception interval is extended from the initial schedule, N2 that is a numerical value of “1” or more is set to the initial value. It returns to “0” (S77).
[0062]
The logical slow / fast process (S73) is performed as shown in FIG.
The difference amount detection unit 57 calculates the trend amount from the reception data stored in the reception information storage unit 71 (S81). Then, it is determined whether or not the tendency amount is greater than the first set value (S82).
Here, if the trend slow / fast amount is larger than the first set value, the difference amount detection unit 57 instructs the trend slow / fast amount calculation unit 56 to execute the logical slow / fast process (S83). The trend slow / fast calculation unit 56 outputs the calculated trend slow / fast amount to the logical slow / fast control unit 55. As described above, the logical slow / fast control unit 55 sets each frequency divider 131 according to the trend slow / fast amount. Then, the reset is controlled and the logical slow / fast process is executed (S83).
On the other hand, when the tendency slow / fast amount is equal to or smaller than the first set value, it is determined that the difference amount is very small and the logical slow / fast process is not necessary, and the logical slow / fast process is not performed.
[0063]
Next, the difference amount detection unit 57 determines whether or not the tendency rate is equal to or less than the third set value (S84). In the present embodiment, the third set value is set to a value that is the same as or smaller than the first set value.
In this way, since the amount of trend is very small, it is possible to suppress the time measurement error even if the reception interval is extended. For this reason, the difference amount detection unit 57 instructs the reception schedule control unit 63 to perform the reception interval extension process when the tendency amount is less than or equal to the third set value (S85). Then, the reception schedule control unit 63 executes a reception interval extension process as shown in FIG.
[0064]
In the reception interval extension process, the reception schedule control unit 63 first determines whether N2 is “0” (S31). When the reception interval extension process (S30) is executed first, since N2 = 0, reception schedule information B is selected (S32), and N2 is updated to “1” (S33). Therefore, the subsequent reception time is once every two days.
[0065]
Further, when the reception interval extension process (S30) is executed in a state where the reception schedule information B is currently selected, since N2 = 1, the reception schedule control unit 63 determines No in S31, and further N2 = 1 is determined (S34). Here, since it becomes Yes, the reception schedule information C is selected (S35), and N2 is updated to “2”. Therefore, the next reception time is once every three days.
[0066]
Furthermore, when the reception interval extension process (S30) is executed in a state where the reception schedule information C is currently selected, N2 = 2, so that the reception schedule control unit 63 determines No in S31 and S34, respectively. Then, the reception schedule information D is selected (S37). N2 remains “2” and is not changed. Therefore, the next reception time is once every four days.
In the present embodiment, since the schedule information D is set only once every four days at the maximum, the reception interval extension process (S30) is executed while the reception schedule information D is currently selected. In step S37, the reception schedule information D is processed as it is. In the reception interval extension process, the extension process of the reception interval longer than the schedule information D can be repeated. However, it is preferable to keep it within a certain interval as in this embodiment. For example, if radio waves are not received for a long period of 1 to 6 months, there is a possibility that a time error may occur due to the temperature change depending on the season even if logical slow / fast processing is performed. This is because the correct time may not be displayed if not performed.
[0067]
Next, the difference amount detection unit 57 sets the number of receptions to the initial value “0” again and performs seven new receptions (S86).
As described above, when the logical slow / fast process (S73) is finished, the schedule change and the logical slow / fast process (S7) are also finished as shown in FIG.
[0068]
As shown in FIG. 7, when each process (S6, S7) is completed, or when the comparison circuit 54 determines that reception has failed in S5, whether there is forced reception (S3A) or set reception The process waits until the reception time based on the schedule is reached (S3B), the forced reception is instructed, or the above processing S4 to S7 is repeated when the reception time comes.
[0069]
In the present embodiment, it is set to execute the logical slow / fast process S73 after N1 is received 7 times or more in S72, that is, when reception is performed 7 times. However, the number of times of determination is not limited to 7. You may set suitably in implementation, such as 3 times, 5 times, 10 times.
[0070]
Further, the number of data stored in the reception information storage unit 71 stores all the data successfully received from the start point, and uses the latest seven data among them, and the average value of time correction values, etc. However, from the viewpoint of storage capacity, only seven data may always be stored, and when new data is stored, the oldest data may be deleted.
[0071]
According to this embodiment, there are the following effects.
(1) When performing the logic slow / fast process of the frequency divider circuit 52, it is based on the trend slow / slow amount calculated based on the past multiple reception times and the difference amount. Even if the correct difference amount cannot be detected because the data with noise is received, the trend amount is not calculated with the difference amount of one time, but is calculated with a plurality of times of data. Compared with the case where the calculation is performed only with the received data, it is possible to perform a more rapid and rapid process.
And since such slow / rapid processing can be executed, the error of the reference signal itself generated by the frequency divider can be made very small, and the time accuracy when the time is measured with the reference signal is greatly increased. Can be improved. Therefore, for example, even when radio waves cannot be received, the time indication error can be reduced, and a timepiece with high time indication accuracy can be obtained.
[0072]
(2) Since the difference amount detection unit 57 performs the logical slow / fast process only when the trend slow / fast amount exceeds the first set value, the logical slow / fast process is not performed when the trend slow / fast amount is very small. Therefore, the energy consumption can be reduced compared to the case where the logical slow / fast process is always performed.
In addition, even if the logical slowing / fastening process is not performed, since the tendency slowing / fastening amount is small, the timing error can be made very small.
[0073]
(3) Since the difference amount detection unit 57 prohibits the internal time correction using the received data via the internal time correction prohibition unit 62 when the difference amount data exceeds the second set value, noise is included. Therefore, it is possible to prevent the time from being corrected by the received data that may have been lost, and to prevent the time indication accuracy from being lowered. Further, since the difference amount data is not used for calculation of the trend slow / fast amount, the accuracy of the trend slow / fast amount can be increased.
[0074]
(4) The difference amount detection unit 57 instructs the reception schedule control unit 63 to widen the reception interval when the tendency rate is equal to or less than the third set value. Since the number of radio wave reception processes with large energy can be reduced, energy consumption can be greatly reduced and the duration of the watch can be extended.
That is, when a portable watch such as a wristwatch is driven by a battery, the battery life can be extended. Therefore, a radio-controlled timepiece having a process that consumes a large amount of power as a receiving operation can have a longer duration than conventional ones.
[0075]
(5) When the difference amount data is larger than the fourth set value, the difference amount detection unit 57 instructs the reception schedule control unit 63 to change the reception schedule to the initial setting or a schedule shorter than the initial setting. Therefore, when there is a possibility that the received data may contain noise, new received data can be acquired at an early stage and processing can be performed with accurate data. Can be prevented.
[0076]
(6) Furthermore, in the present embodiment, the reception schedule control unit 63 changes the reception schedule information from the initial once / daily information A to the once / two-day reception schedule information B, once / three days. Since the reception schedule information C, the reception schedule information D for 1 time / 4 days are sequentially selected and the reception interval is gradually increased, the power consumption can be further suppressed. In addition, since the extension of the reception interval is performed when the tendency rate is small as the third set value or less, there is almost no error in the time indication even if the radio wave reception interval is extended.
[0077]
(7) Since the external operation unit 29 is provided so that forced reception can be performed, even when the reception schedule interval is extended by the reception schedule control unit 63, the user can receive radio waves at any timing. . Therefore, even if there is an error in the time indication due to the increase in the reception interval, the error can be corrected immediately by the user forcibly receiving it as necessary, and there is no problem with actual use. It will never be.
In addition, even when the difference amount exceeds the second set value, if forced reception is performed, the received data can be stored (S64) and time correction processing (S65) without prohibiting the time adjustment. When the user compulsorily receives the time, the time can be surely corrected based on the received data, and convenience can be enhanced.
[0078]
(8) Since the reception schedule storage unit 72 and the setting value storage unit 73 are provided, it is possible to easily change or add each reception schedule information, setting value, or determination value. Therefore, these pieces of information can be easily set at the time of shipment to the user or the factory according to each model and usage status, and optimal control can be performed for each usage status and each model.
[0079]
[Second Embodiment]
A second embodiment of the present invention will be described with reference to FIG. In the present embodiment, the same or similar components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0080]
As shown in FIG. 12, the radio-controlled timepiece 1 of the second embodiment is different from the configuration of the first embodiment only in that an oscillation frequency adjustment process is performed instead of the logical slow / fast process. Instead of the unit 55 and the tendency slow / slow amount calculation unit 56, an oscillation frequency control unit 255 and a trend frequency calculation unit 256 are provided.
As the oscillation frequency control unit 255, a unit that controls the frequency by switching the capacitance of the capacitor of the crystal oscillation circuit 51 can be used. Specifically, the oscillation frequency control unit 255 prepares a plurality of capacitors and performs control by switching the capacitor of the crystal oscillation circuit 51 with a switching transistor.
[0081]
The operation of the difference amount detection unit 57 is different only in that the tendency frequency adjustment amount is calculated instead of the tendency slow / slow amount, and the oscillation frequency adjustment process is performed instead of the logic slow / slow process. Therefore, explanation is omitted. Note that the trend frequency adjustment amount is also obtained from the average value of the time correction values in FIG.
[0082]
In the present embodiment, by performing the oscillation frequency adjustment process, the source oscillation signal of the crystal oscillation circuit 51 can be output with high accuracy. Therefore, as in the first embodiment, the reference signal output from the frequency divider circuit 52 is Accuracy can also be increased. Therefore, the same operational effects as the first embodiment can be obtained.
[0083]
Note that the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention.
For example, the second embodiment may be added to the first embodiment, and the radio-controlled timepiece 1 including the logical slow / fast control unit 55, the trend slow / fast amount calculation unit 56, the oscillation frequency control unit 255, and the trend frequency calculation unit 256 may be used. However, normally, if one is provided as in the above-described embodiments, the reference signal can be made practically sufficiently accurate.
[0084]
In addition to the configuration of each of the above embodiments, a magnetic field detection unit that detects a magnetic field outside or inside the watch may be added.
As the magnetic field detection unit, one that detects electromagnetic noise using the antenna 21 and the receiving circuit 22 can be used. Examples of electromagnetic noise include those generated by an external magnetic field applied from an external device such as an AC magnetic field and a high frequency magnetic field, and an internal magnetic field generated by the operation of a generator disposed inside the device.
The magnetic field detection unit is not limited to the one using the antenna 21 and the reception circuit 22, but may be any unit that can detect electromagnetic noise. For example, electromagnetic noise may be detected by using a drive coil of a stepping motor in the display unit 28 as an antenna and using the drive circuit as a magnetic field detection circuit. When an AC generator is built in, the magnetic field may be detected by a magnetic field detection circuit using the power generation coil as an antenna, or the power generation state is detected from the generated power induced in the power generation coil. An electromagnetic noise may be detected by using the power generation detection circuit as a magnetic field detection circuit.
[0085]
Then, when the reception control unit 60 detects a magnetic field (electromagnetic noise) of a predetermined strength by the magnetic field detection unit, the reception schedule control unit 63 receives the reception process even when the time for receiving the radio wave is reached on the schedule. Control may be performed so as not to be performed.
If such a magnetic field detection unit is provided, the execution of the radio wave reception process can be stopped when electromagnetic noise is affected during radio wave reception. For this reason, the standard radio wave is erroneously received due to the influence of electromagnetic noise, and the time is not corrected at the wrong time. Therefore, the time accuracy can be further improved. Further, since the difference amount is not obtained based on the reception data affected by the electromagnetic noise, and the tendency slow / slow amount is not calculated, the logical slow / fast process and the oscillation frequency adjustment process can be performed with high accuracy.
[0086]
Further, the radio-controlled timepiece includes temperature measuring means for measuring the temperature of the oscillating unit, and the reception information storage unit divides temperature data measured by the temperature measuring unit at least a plurality of times when external wireless information is received. It is configured to be capable of storing, and a predicted correction amount of the trend slow / slow amount and / or trend frequency adjustment amount is calculated based on the plurality of difference data, temperature data and current temperature data stored in the reception information storage unit A correction amount calculation unit that performs the logic slow / sudden control unit and / or the oscillation frequency control unit based on the predicted correction amount calculated by the correction amount calculation unit. It may be configured to be able to adjust the oscillation frequency.
According to such a configuration, the temperature that causes fluctuations in the source signal of the oscillation unit is measured, and the correlation between the amount of difference and the temperature at the time of each reception is obtained, so even when no radio waves are actually received. Based on the measured temperature, logical slow / fast processing and oscillation frequency adjustment processing can be performed. For this reason, even when the radio wave cannot be received for a long period of time, such as when traveling abroad, the accuracy of the reference signal can be increased, and the timepiece can be reduced in instruction error.
If there are factors other than temperature as factors that affect the characteristics of the oscillator and frequency divider, the correlation between the influential factors and the difference amount may be obtained, and the influential factors may be measured to obtain the predicted correction amount. . At this time, when a plurality of influencing factors influence, the same processing may be performed for each factor.
[0087]
Furthermore, in the above-described embodiment, when the trend rate is less than or equal to the third set value, the reception schedule is changed to increase the reception interval. However, the reception schedule may not be changed. .
Similarly, in the above embodiment, when the difference amount data exceeds the fourth set value, the reception schedule is changed to an initial value or a schedule having a reception interval shorter than the initial schedule. It may not be performed.
In short, the change of the reception schedule is not an essential requirement in the present invention, and may be set as necessary. However, in the present invention, since the accuracy of the reference signal can be increased, there is an advantage that the time accuracy can be maintained even if the reception interval is increased, and energy saving can be achieved.
[0088]
Further, in the above embodiment, the logical slow / fast process is executed when the trend slow / fast amount exceeds the first set value, and the logical slow / fast process is not performed when the trend set amount is less than the first set value. It may be set so that the logical slow / fast process is performed even if it is less than one set value.
Furthermore, in the above-described embodiment, when the difference amount data exceeds the second set value, the internal time correction is set to be prohibited. However, such processing may not be performed. That is, when the received data contains noise and erroneous data is received, it is preferable to prohibit the internal time correction. In practice, however, such noise is not detected in verification of the received data in the receiving circuit 22. This is because the included data is excluded, and even if the internal time correction prohibiting unit 62 is not provided, there is almost no possibility that the time instruction is shifted.
[0089]
Furthermore, in the above-described embodiment, the logical slow / fast process is executed after receiving the radio wave 7 times. For example, the logical slow / fast process is executed only by receiving the radio wave 3 times. Also good. In short, it is only necessary to use the reception time data and difference data obtained by receiving radio waves at least several times.
The number of receptions may be set according to a preset number of times set in the timepiece in advance, or may be set according to the set number of times changed by the variable number of means provided in the timepiece. For example, the set number of times can be set in advance according to the characteristics of the oscillation source (oscillator) incorporated in the watch, and the adjustment amount is calculated based on an appropriate number of data according to the characteristics of the various watches. In addition, logical adjustment and frequency adjustment can be performed.
In addition, if a setting number variable means is provided and the setting means can be changed automatically or manually by this variable means, it can be changed to the optimum setting number according to the use environment of the watch, and the adjustment amount. Can be calculated with high accuracy and logical adjustment. For example, when the reception schedule is changed and the reception interval is increased, the number of days elapsed from the previous adjustment is increased even if the number of receptions is small. In such a case, for example, the number of days that have elapsed since the previous adjustment may be counted, and when a certain number of days have elapsed, the number of receptions may be reduced to perform a logical slowdown process. Similarly, a thermometer may be provided inside the watch, and the set number of times may be varied according to the temperature change.
[0090]
Further, when a plurality of data are used, for example, the pre-adjustment data erasure means for erasing data before the previous adjustment is provided in the trend rate calculation unit 56 and the trend frequency calculation unit 256, and the logical rate process (S73). Is executed, the data in the received information storage unit 71 is erased by the data erasing means before the previous adjustment, and only the data received and recorded thereafter, that is, the total amount of data in the information reception storage unit 71 is used. May be calculated.
Further, the trend adjustment / adjustment amount calculation unit 56 and the trend frequency calculation unit 256 are provided with data adjustment means after the previous adjustment, and the trend logical adjustment amount and the adjustment amount of the trend frequency are adjusted using only the data after the previous adjustment after the logical adjustment processing. May be calculated.
Here, as the data adjustment means after the previous adjustment, for example, when the logical slow / fast process is executed, the reception number counter is set to 0, and the latest 7 data are always the data after the logical slow / fast process. What is necessary is just to comprise so that it may calculate using the newest 7 times data memorize | stored in the information storage part 71. FIG. In addition, as the data adjustment means after the previous adjustment, each data such as the difference data is stored together with the reception date / time data in the reception information storage unit 71, and the data after the previous adjustment date / time is extracted from the recorded data. You may comprise so that it may calculate.
[0091]
Moreover, the specific method for calculating the tendency slow / slow amount and the tendency frequency adjustment amount is not limited to the method for obtaining the average value. For example, when a plurality of pieces of difference data tend to increase, it may be more appropriate to obtain a trend steep amount or the like in consideration of the trend increase in the latest value instead of the average value. Analyzing the trend of each data, and calculating the trend slow / fast amount based on the predicted amount based on the trend is also included in calculating the trend slow / fast amount based on a plurality of data in the present invention. The data tendency can be calculated by obtaining a relational expression from a plurality of data using a least square method or the like.
[0092]
Further, specific values of the set values are not limited to those exemplified in the embodiment, and these may be set as appropriate. For example, in the embodiment, the first set value and the third set value are the same, and the second set value and the fourth set value are the same. However, these values may be different from each other. Furthermore, each set value may be enlarged or reduced corresponding to the passage of elapsed time.
Each set value may be changed in consideration of seasonal variation. In particular, crystal oscillators and the like have temperature characteristics, so that the timekeeping accuracy is slightly different when the external temperature is different such as in summer and winter. Accordingly, since the time correction value may have a different tendency depending on the season, if each set value is set in consideration of these, control with higher accuracy can be performed.
[0093]
In addition, each setting value can be set freely at the time of factory shipment or by a user (user) by operating a setting changing unit such as a crown or a button, or can be changed from a choice prepared in advance. May be.
Further, the setting values and determination values, and various control programs may be incorporated or changed by wireless communication via the antenna 21 or network communication via a cable.
[0094]
Further, the reception schedule information is not limited to the information A to E, but has a longer reception interval (such as once / 5 days or once / 10 days), or a shorter reception interval (four times / day). Etc.).
In the embodiment, the schedule information A to D is gradually selected in the order of the information A, B, C, and D. For example, each schedule is changed according to the average value of the time correction values. Information A to E may be selected directly. For example, when the schedule information A is selected and the tendency amount is very small, the schedule information D may be directly selected next.
[0095]
Furthermore, in each of the above embodiments, the reception schedule storage unit 72 is provided. However, the reception schedule control unit 63 may directly calculate and set the reception schedule without providing the reception schedule storage unit 72. For example, a routine that can calculate the reception interval using the average value of the time correction values as a parameter may be provided so that the reception schedule can be set based on the average value.
[0096]
The method of calculating the trend slow / fast amount and the trend frequency adjustment amount from the past reception / time correction amount data is also included in the present invention in cases other than the above embodiment.
For example, in each of the above embodiments, after a plurality of times of radio wave reception has been performed, or after the reception schedule has been changed, the trend rate and the like are calculated after a plurality of new radio wave receptions. However, for example, after a certain period of time such as one month later, the trend amount may be calculated by newly receiving a plurality of times.
In other words, considering the temperature characteristics of the oscillator, etc., if there is a temperature change corresponding to the four seasons, such as in Japan, the amount of correction also increases or decreases according to the temperature change. For example, by calculating the logical amount of steepness every other month, it is possible to perform time correction with higher accuracy. On the other hand, when using it in an area where the temperature change is small, such as a tropical region, the logical amount may be calculated and adjusted once or twice a year.
[0097]
The radio-controlled timepiece 1 is provided with display means for displaying current reception schedule information or displaying the number of days elapsed since the last reception of radio waves, so that the user can easily grasp the current state. You may do it. As this display means, for example, the display is switched to the schedule display mode using a crown or a button, and the scale of the dial plate is indicated by the second hand in units of 10 seconds as information A to E. A liquid crystal screen may be provided for display.
[0098]
Further, each means in the control circuit 24 is provided in the timepiece 1 with a computer configured with hardware such as various logic elements, a CPU (central processing unit), a memory (storage device), etc. A configuration may be adopted in which a predetermined program or data (data stored in each storage unit) is incorporated in this computer to realize each means.
Here, the program and data may be stored in advance in a memory such as a RAM or a ROM incorporated in the timepiece 1. Further, for example, a predetermined control program and data may be installed in a memory in the radio-controlled timepiece 1 via a communication means such as the Internet or a recording medium such as a CD-ROM or a memory card. Then, each means may be realized by operating a CPU or the like with a program stored in the memory. In order to install a predetermined program or the like in the radio-controlled timepiece 1, a memory card, a CD-ROM or the like may be directly inserted into the radio-controlled timepiece 1, or an external device for reading these storage media may be used. May be connected to the radio-controlled timepiece 1. Further, a LAN cable, a telephone line or the like may be connected to the radio-controlled timepiece 1 to supply and install a program or the like by communication, or since the antenna 21 is provided, the program is supplied and installed wirelessly. Also good.
[0099]
If a control program or the like provided by such a recording medium or communication means such as the Internet is incorporated in the radio-controlled timepiece 1, the functions of each invention can be realized only by changing the program. A control program to be selected can be selected and incorporated. In this case, since various radio-controlled timepieces 1 having different control formats can be manufactured only by changing the program, the parts can be shared, and the manufacturing cost when developing variations can be greatly reduced.
[0100]
The functions of the radio-controlled timepiece, that is, each configuration of the time measuring means, the receiving means, the time correcting means, etc. is not limited to that of the above-described embodiment, and each means of a conventionally known radio-controlled timepiece can be used.
Further, the specific configurations of the logical slow / fast control unit 55 and the oscillation frequency control unit 255 are not limited to the above-described embodiment, and various types of logical slow / fast devices and oscillation frequency control devices that have been conventionally used can be used.
[0101]
The radio-controlled timepiece 1 of the present invention is not limited to an analog type timepiece, and may be a digital type timepiece or a timepiece having both an analog display pointer and a digital display liquid crystal display unit. Furthermore, the radio wave correction watch 1 can be applied to various watches such as a portable watch such as a wrist watch or a pocket watch, and an installation type watch such as a wall clock or a table clock.
Further, the external wireless information is not limited to time information using long wave standard radio waves. For example, wireless information using FM, GPS, Bluetooth, or a non-contact IC card may be used as long as it includes at least time information. Incidentally, it goes without saying that the configurations of the antenna 21 and the receiving circuit 22 are appropriately changed depending on the type of radio waves.
[0102]
Further, the radio-controlled timepiece according to the present invention is not limited to that of the above-described embodiment, and may be, for example, a parent-child timepiece or a repeater.
Furthermore, the radio-controlled timepiece of the present invention may be incorporated into an electronic device that performs some processing or operation using accurate time information, such as a personal computer, an electronic toy, or a timer.
[0103]
【The invention's effect】
As described above, according to the present invention, since the logical slow / fast process and the oscillation frequency adjustment process are performed using the difference between the received external time data and the internal time data, it is possible to display the time with high accuracy. Can do.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of a radio-controlled timepiece according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a control circuit of the first embodiment.
FIG. 3 is a diagram showing a data configuration of a reception information storage unit in the first embodiment.
FIG. 4 is a diagram showing a data configuration of a reception schedule storage unit in the first embodiment.
FIG. 5 is a block diagram showing a configuration of a logical slow / fast control unit in the first embodiment.
6 is a circuit block diagram showing a circuit configuration of a logic slow / fast control unit shown in FIG. 5. FIG.
FIG. 7 is a flowchart showing the operation of the control circuit in the first embodiment.
FIG. 8 is a flowchart showing data storage and time correction processing in the first embodiment.
FIG. 9 is a flowchart showing schedule change and logical slow / fast processing in the first embodiment.
FIG. 10 is a flowchart showing a logical slow / fast process in the first embodiment.
FIG. 11 is a flowchart showing reception interval extension processing in the first embodiment.
FIG. 12 is a block diagram illustrating a configuration of a control circuit according to a second embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Radio correction clock, 21 ... Antenna, 22 ... Reception circuit, 23 ... Data storage circuit, 24 ... Control circuit, 25 ... Display drive circuit, 26 ... Hand position detection circuit, 27 ... Battery, 28 ... Time display part, 29 DESCRIPTION OF SYMBOLS ... External operation part, 50 ... Reference oscillation source, 51 ... Crystal oscillation circuit, 52 ... Frequency division circuit, 53 ... Time counter, 54 ... Comparison circuit, 55 ... Logic slow / slow control part, 56 ... Trend slow / slow amount calculation part, 57 ... Difference amount detection unit, 60 ... reception control unit, 61 ... internal time correction control unit, 62 ... internal time correction prohibition unit, 63 ... reception schedule control unit, 70 ... storage unit, 71 ... reception information storage unit, 72 ... reception schedule Storage unit 73... Setting value storage unit 131. Frequency divider 255. Oscillation frequency control unit 256.

Claims (10)

An external wireless information receiving unit for receiving external wireless information including time information;
An internal time counter that includes at least an oscillator and a frequency divider, and counts the internal time based on a reference signal generated by the oscillator and the frequency divider,
A time data comparison unit that compares the external time data that is time information received by the external wireless information reception unit and the internal time data measured by the internal time measurement unit, and outputs the difference amount;
A correction unit for correcting the internal time data based on the difference amount;
A time display unit for displaying time based on the internal time data;
A reception information storage unit that stores at least a plurality of times each data of the difference amount at the time when the external wireless information reception unit receives external wireless information;
A trend slow / slow amount calculation unit that calculates a trend slow / slow amount based on the plurality of reception time data and a plurality of difference amount data;
A logical slow / fast control unit that adjusts a frequency division ratio of the frequency dividing unit according to the trend slow / slow amount calculated by the trend slow / slow amount calculating unit;
A reception schedule control unit for controlling a reception schedule in the external wireless information reception unit;
A difference amount detection unit for detecting whether or not the tendency slow / fast amount exceeds a preset first set value and whether or not it is equal to or less than a third set value;
The third set value is smaller than the first set value;
The logical slow / fast control unit adjusts the frequency dividing ratio of the frequency dividing unit when the difference amount detecting unit detects that the trend slow / fast amount exceeds the first set value,
The reception schedule control unit changes the reception schedule to a reception schedule in which the reception interval is longer than the initial reception schedule when the difference amount detection unit detects that the tendency amount is less than or equal to the third set value. Features a radio-controlled watch. An external wireless information receiving unit for receiving external wireless information including time information;
An internal time counter that includes at least an oscillator and a frequency divider, and counts the internal time based on a reference signal generated by the oscillator and the frequency divider,
A time data comparison unit that compares the external time data that is time information received by the external wireless information reception unit and the internal time data measured by the internal time measurement unit, and outputs the difference amount;
A correction unit for correcting the internal time data based on the difference amount;
A time display unit for displaying time based on the internal time data;
A reception information storage unit that stores at least a plurality of times each data of the difference amount at the time when the external wireless information reception unit receives external wireless information;
A trend frequency calculation unit that calculates a trend frequency adjustment amount based on the plurality of reception time data and a plurality of difference amount data;
An oscillation frequency control unit that adjusts the oscillation frequency of the oscillation unit according to the trend frequency adjustment amount calculated by the trend frequency calculation unit;
A reception schedule control unit for controlling a reception schedule in the external wireless information reception unit;
A difference amount detection unit that detects whether or not the tendency frequency adjustment amount exceeds a preset first setting value and whether or not the tendency frequency adjustment amount is equal to or less than a third setting value;
The third set value is smaller than the first set value;
The oscillation frequency control unit adjusts the oscillation frequency of the oscillation unit when the difference amount detection unit detects that the tendency frequency adjustment amount exceeds the first set value,
When the difference amount detection unit detects that the tendency frequency adjustment amount is equal to or less than the third set value, the reception schedule control unit changes the reception schedule so that the reception interval is longer than the default reception schedule. A radio-controlled watch featuring In the radio-controlled timepiece according to claim 1 or 2,
The trend pace amount calculating unit or the tendency frequency calculation unit, the theoretical regulation control unit or the oscillation frequency control unit, dividing castor other frequency divider in after the oscillation frequency of the oscillator is adjusted last only the data stored, the tendency pace Ryoma other radio-controlled timepiece and calculates the trend frequency adjustment amount. The radio-controlled timepiece according to any one of claims 1 to 3,
A reception number detection unit for detecting the number of receptions of the external wireless information;
Theoretical regulation control unit or the oscillation frequency control section, when the number of receptions that were detected by the receiving count detection unit, exceeds a variable has been set number of times preset number of times or setting times changing means, the frequency division parts are dividing castor other radio-controlled timepiece and adjusting the oscillation frequency of the oscillator. The radio-controlled timepiece according to any one of claims 1 to 4,
A difference amount detection unit for detecting whether or not the difference amount data obtained by the time data comparison unit exceeds a preset second set value;
An internal time correction prohibiting unit that prohibits correction of the internal time in the correction unit when the difference amount detection unit detects that the difference amount data exceeds the second set value;
The trend pace amount calculating unit or the tendency frequency calculating unit, the second based on other differences quantity data except the difference amount data exceeding the set value, trend pace Ryoma others calculate the trend frequency adjustment amount A radio-controlled watch characterized by The radio-controlled timepiece according to claim 4,
A difference amount detection unit for detecting whether or not the difference amount data obtained by the time data comparison unit exceeds a preset second set value;
An internal time correction prohibiting unit that prohibits correction of the internal time in the correction unit when the difference amount detection unit detects that the difference amount data exceeds the second set value;
The reception number detection unit includes a reception number count prohibition unit that does not allow the difference number data exceeding the second set value to be counted in the reception number.
The trend pace amount calculating unit or the tendency frequency calculating unit, the second based on other differences quantity data except the difference amount data exceeding the set value, trend pace Ryoma others calculate the trend frequency adjustment amount A radio-controlled watch characterized by In the radio-controlled timepiece according to any one of claims 1 to 6,
The difference amount detection unit detects whether or not the difference amount data obtained by the time data comparison unit exceeds a preset fourth set value,
In the reception schedule control unit, when the difference amount detection unit detects that the difference amount data exceeds the fourth set value, the initial reception schedule or the reception interval is shorter than the initial reception schedule. Radio correction clock characterized by changing to reception schedule In the radio-controlled timepiece according to any one of claims 1 to 7,
It has a magnetic field detector that detects the magnetic field inside or outside the watch,
A radio-controlled timepiece comprising a reception processing control unit for prohibiting reception operation or invalidating received data in an external wireless information reception unit when a magnetic field is detected by the magnetic field detection unit. An external wireless information receiving unit that receives external wireless information including time information, and an internal unit that measures at least an internal time based on a reference signal generated by the oscillating unit and the frequency dividing unit. A method for controlling a radio-controlled timepiece having a timekeeping unit,
A time data comparison step of comparing the external time data which is the time information received by the external wireless information receiver and the internal time data timed by the internal time counter and outputting the difference amount;
A time data correction step of correcting the internal time data based on the difference amount;
A reception information storage step of storing at least a plurality of times each data of the difference amount at the time when external wireless information is received by the external wireless information receiving unit;
A gradual amount calculation step of calculating a trend gradual amount based on the plurality of reception time data and a plurality of difference amount data;
A logical slow / fast control step of adjusting a frequency division ratio of the frequency divider using the tendency slow / fast amount;
And as reception schedule control engineering for controlling the reception schedule in said external radio information reception unit,
A difference amount detection step of detecting whether or not the tendency rapidity amount exceeds a preset first set value and whether or not it is equal to or less than a third set value;
The third set value is smaller than the first set value;
The logical slow / fast control step adjusts the frequency division ratio of the frequency divider when it is detected in the difference amount detection step that the trend slow / fast amount exceeds the first set value,
The reception schedule control step is to change the reception schedule so that the reception interval is longer than the default reception schedule when it is detected in the difference amount detection step that the trend rate is less than or equal to the third set value. A control method for a radio-controlled timepiece. An external wireless information receiving unit that receives external wireless information including time information, and an internal unit that measures at least an internal time based on a reference signal generated by the oscillating unit and the frequency dividing unit. A method for controlling a radio-controlled timepiece having a timekeeping unit,
A time data comparison step of comparing the external time data which is the time information received by the external wireless information receiver and the internal time data timed by the internal time counter and outputting the difference amount;
A time data correction step of correcting the internal time data based on the difference amount;
A reception information storage step of storing at least a plurality of times each data of the difference amount at the time when external wireless information is received by the external wireless information receiving unit;
A trend frequency calculation step of calculating a trend frequency adjustment amount based on the plurality of reception time data and a plurality of difference amount data;
An oscillation frequency control step of adjusting the oscillation frequency of the oscillation unit using the tendency frequency adjustment amount;
A reception schedule control step for controlling a reception schedule in the external wireless information receiving unit;
A difference amount detection step of detecting whether or not the tendency frequency adjustment amount exceeds a preset first set value and whether or not it is equal to or less than a third set value;
The third set value is smaller than the first set value;
The oscillation frequency control step adjusts the oscillation frequency of the oscillation unit when it is detected that the tendency frequency adjustment amount exceeds the first set value in the difference amount detection step,
The reception schedule control step is changed to a reception schedule in which the reception interval is longer than the default reception schedule when the difference frequency detection step detects that the tendency frequency adjustment amount is equal to or less than the third set value. A method of controlling a radio-controlled clock characterized by

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