JP3743552B2 - Time adjustment device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a time adjustment apparatus, and more particularly to time adjustment of a plurality of devices connected to a network.
[0002]
[Prior art]
For example, when a recorder R is connected to the network via the bus B as shown in FIG. 4 as a plurality of num devices having a clock function, each of the recorders R varies depending on the environment (mainly temperature) in which each recorder R is arranged. The time of the recorder R may be different. Such a difference in time between recorders leads to inconsistency in the time relationship of the measurement results of the entire network.
Therefore, when the measurement results of the recorders R connected to the network in this way are analyzed based on the time data of the respective recorders R, the correct time relationship is not reflected, so that an accurate analysis result cannot be obtained. .
[0003]
In such a case, it is necessary to synchronize the time between recorders connected to the network. However, manually adjusting the time for each of the recorders R requires a considerable amount of work.
Therefore, conventionally, for example, a desired time setting unit 1 and a desired set time memory 2 as shown in FIG. 5 are provided in the personal computer PC, and the time of each recorder R is set from the personal computer PC through the bus B according to the flowchart as shown in FIG. Things have been done. In the personal computer PC, dedicated application software for managing each recorder R is operating.
[0004]
In step SP1 of FIG. 6, the desired time setting unit 1 writes time data time to be set in the desired set time memory 2. In step SP2, the value of the counter that manages the identification number n of the target device for time adjustment is set to the identification number “0” indicating the first device. In step SP3, the time of the device having the identification number “0” is changed to the time time set in the desired set time memory 2. When the time change process for the device with the identification number “0” is completed, the value of the counter that manages the identification number n is incremented by 1 in step SP4. Thereafter, the processes in steps 3 and 4 are repeated until the value of the counter managing the identification number n does not satisfy the condition of n <num as shown in step 5.
[0005]
[Problems to be solved by the invention]
However, in such a conventional method, the time is set in order one by one, so the recorder R ₀ that set the time first and the recorder R _num that was set last are immediately after the setting. Nevertheless, there has been a problem that the set time is shifted by the time required for the setting process.
For example, if it takes an average of 0.2 seconds for each of the 10 recorders connected to the network, it takes approximately 2 seconds for the recorder R ₀ that sets the time first and the recorder R _num that is set last. A shift in seconds will occur. Note that the time lag in an actual network greatly depends on the network status.
[0006]
The present invention pays attention to such problems, and the purpose of the present invention is to adjust the time that can reduce the set time deviation of each device even when the network is loaded or the number of devices to be set at a time is large. To provide an apparatus.
[0007]
[Means for Solving the Problems]
The invention of claim 1 that achieves such an object is a time adjustment device that sequentially adjusts the time of a plurality of other devices connected to the network and having a clock function via the network,
A reference clock unit for outputting time data;
A desired setting time memory in which desired setting time data in which a time desired to be matched between the other devices is set;
A setting start time memory in which setting start time data of the time at which the time adjustment operation is started is stored from the reference clock unit;
Immediately before setting time data in which time data immediately before setting time for each other device is stored from the reference clock unit;
A calculation unit for obtaining corrected setting time data obtained by adding the result obtained by subtracting the setting start time data from the immediately preceding setting time data to the desired setting time data;
Have
The time data of the other device is changed to the correction set time data obtained for each of the other devices .
[0008]
According to a second aspect of the present invention, in the time adjustment device according to the first aspect,
An allowable time difference setting unit for setting an allowable range of time deviation of the other device;
A time monitoring unit that monitors a time lag of the other device and determines whether or not the allowable range is exceeded ;
An operation priority setting unit configured to prioritize the operation of the other device when the time adjustment operation and the operation of the other device compete.
An operation monitoring unit for monitoring the operation of the other device;
Have
The time adjustment operation is executed when the time difference of the other device exceeds the allowable range, and the operation of the other device is prioritized when the time adjustment operation and the operation of the other device compete. It is characterized by.
[0010]
Thus, when setting the time of a plurality of devices that have a clock function and are connected to the network, the time lag between devices can be minimized.
When adjusting the time, an allowable range of time lag for each device can be set as necessary, and can be automatically executed if it deviates from that range. When the alignment is not preferable, priority can be given to continuous operation.
[0012]
Thereby, the time difference between the recorders connected to the network can be minimized, and even if the measurement results of the recorders connected to the network are analyzed based on the time data of each recorder, a highly accurate analysis result can be obtained.
Further, when the automatic time adjustment operation is set, if the time deviation deviates from the allowable range during the continuous recording operation, the recording operation can be prioritized.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing an example of an embodiment of the present invention, and the same reference numerals are given to portions common to FIG. In FIG. 1, the output terminal of the reference clock unit 3 of the personal computer PC is connected to a desired set time memory 2, a set start time memory 4 and a set just before time memory 5. The output terminals of these desired set time memory 2, set start time memory 4 and immediately before set time memory 5 are connected to the set time correction calculation unit 6.
[0014]
The operation of FIG. 1 will be described using the flowchart of FIG. In step SP1 of FIG. 1, the desired time setting unit 1 writes time data time to be set in the desired set time memory 2. In step SP2, the reference setting start time is measured, and the setting start time data origin is stored in the setting start time memory 4. In step SP3, the value of the counter that manages the identification number n of the target device for time adjustment is set to the identification number “0” indicating the first device.
[0015]
In step SP4, the time is measured again immediately before setting the time in the device, and the immediately preceding setting time data ctime is stored in the immediately preceding setting time memory 5. In step SP5, the set time correction calculation unit 6 performs a correction calculation of the set time represented by the following equation based on the time data time, origin and citme set and stored in each of the memories 2, 4 and 5 to correct the correction. Find the set time data stime.
stime = time + ctime-origin
[0016]
In step SP6, the time of the device with the identification number “0” is changed to the corrected set time data “stime” corrected and calculated by the set time correction calculation unit 6. When the time change process for the device with the identification number “0” is completed, the value of the counter that manages the identification number n is incremented by 1 in step SP7. Thereafter, the processing from step 4 to step 8 is repeatedly executed until the value of the counter managing the identification number n does not satisfy the condition of n <num as shown in step 8.
[0017]
By configuring in this way, when setting the time of a plurality of devices that have a clock function and are connected to the network, the correction calculation of the time to be set is performed based on the previous time every time. The time lag can be minimized.
[0018]
FIG. 3 is a block diagram showing another example of the embodiment of the present invention. In the figure, an allowable time difference setting unit 7 sets an allowable range of time lag for each device connected to the network, and outputs the set value to the network connection device time monitoring unit 8.
[0019]
The network connection device time monitoring unit 8 has a function of monitoring the magnitude of the time lag for each device connected to the network, and determines whether the time lag exceeds an allowable range. The result is output to the network connection device time setting unit 9 configured as shown in FIG.
[0020]
The network connection device operation priority setting unit 10 is configured to prioritize device operation when the device operation and time adjustment conflict, and outputs the setting data to the network connection device operation monitoring unit 11. .
[0021]
The network connection device operation monitoring unit 11 has a function of monitoring the operation state of each device connected to the network. Based on the setting of the network connection device operation priority setting unit 10, the operation and time adjustment of the device are performed. When there is a conflict, a control signal for giving priority to the operation of the device is output to the network connection device time setting unit 9.
[0022]
With the configuration as shown in FIG. 3, when the time lag of each device deviates from the allowable range set in advance by the allowable time difference setting unit 7, the time adjustment operation by the network connected device time adjustment unit 9 is automatically executed. be able to.
In addition, when it is not preferable to set the time during the continuous operation period of the device, the continuous operation of the device can be prioritized based on the setting of the network connection device operation priority setting unit 10.
[0023]
This device operation priority function is particularly effective when continuous recording is performed by a recorder. If the time lag is corrected during the continuous recording, the continuity of the time of the recorder itself is interrupted, and the time relationship of the recording data becomes unclear. Therefore, in such a case, the time adjustment is performed after the end of the series of operations to maintain the continuity of the time during the continuous operation.
[0024]
In the above embodiment, the example in which the device connected to the network is a recorder has been described. However, the present invention is not limited to the recorder, and can be applied to various terminals having a clock function capable of adjusting the time by an external control signal. is there.
[0025]
【The invention's effect】
As described above, according to the present invention, even when a load is applied to the network or the number of devices to be set at a time is large, it is possible to reduce the time difference between the setting times of each device, thereby realizing highly accurate time adjustment. it can.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an example of an embodiment of the present invention.
FIG. 2 is a flowchart for explaining the operation of FIG. 1;
FIG. 3 is a block diagram showing another example of the embodiment of the present invention.
FIG. 4 is an explanatory diagram showing an example of a network connection relationship to which the present invention is applied.
FIG. 5 is a block diagram illustrating an example of a conventional time adjustment unit.
6 is a flowchart illustrating the operation of FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Desired time setting part 2 Desired setting time memory 3 Reference | standard clock part 4 Setting start time memory 5 Setting time memory 6 Setting time correction calculating part

Claims (2)

A time adjustment device that sequentially adjusts the time of a plurality of other devices connected to the network and having a clock function via the network,
A reference clock unit for outputting time data;
A desired setting time memory in which desired setting time data in which a time desired to be matched between the other devices is set;
A setting start time memory in which setting start time data of the time at which the time adjustment operation is started is stored from the reference clock unit;
Immediately before setting time data in which time data immediately before setting time for each other device is stored from the reference clock unit;
A calculation unit for obtaining corrected setting time data obtained by adding the result obtained by subtracting the setting start time data from the immediately preceding setting time data to the desired setting time data;
Have
A time adjustment apparatus, wherein the time data of the other device is changed to the correction set time data obtained for each of the other devices. An allowable time difference setting unit for setting an allowable range of time deviation of the other device;
A time monitoring unit that monitors a time lag of the other device and determines whether or not the allowable range is exceeded ;
An operation priority setting unit configured to prioritize the operation of the other device when the time adjustment operation and the operation of the other device compete.
An operation monitoring unit for monitoring the operation of the other device;
Have
The time adjustment operation is executed when the time difference of the other device exceeds the allowable range, and the operation of the other device is prioritized when the time adjustment operation and the operation of the other device compete. The time adjustment apparatus according to claim 1, wherein:

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