JPH0646745B2 - Time synchronization method - Google Patents

Description

Detailed Description of the Invention TECHNICAL FIELD OF THE INVENTION

The present invention relates to a time synchronization method for synchronizing the time of a remote device in a system for transmitting data to a remote device using a serial signal.

[Prior art and its problems]

In a remote monitoring control device, etc., in which a control station monitors and controls the controlled station by connecting the control station and a controlled station in a remote place with a transmission line and transmitting information through the transmission line. Time-related synchronization is performed between the control station and the controlled station in order to maintain the simultaneity of information and the synchronization between devices.
A conventional time synchronization method will be described with reference to FIG. FIG. 3 shows a schematic configuration diagram of the remote monitoring control device,
In the figure, a data transmission modulator 1, a time adjustment signal generator 3, a time adjustment signal modulator 4 and a transformer 8 are provided at a control station, and data controlled demodulators 2a and 2b are provided at a controlled station. The time synchronization signal demodulators 5a and 5b, the synchronized devices 6a and 6b, and the transformers 9, 10a and 10b are provided, and the control station and the controlled station are connected by a transmission line 7. In this example, two controlled stations are provided. In such a configuration, the normal data transmission modulator 1 and the time adjustment signal modulator 4 are separately provided, and different frequencies are used as the subcarriers ₁ and ₂ of the respective modulators. At the time of data transmission, the data by the subcarrier ₁ from the data transmission modulator 1 is transferred to the transformer 8,
The data is transmitted to the data transmission demodulators 2a and 2b via the transmission line 7 and the transformers 9, 10a and 10b. On the other hand, when performing the synchronization, the signal from the time alignment signal generator 3 converts the signal from the subcarrier ₂ from the time alignment signal modulator 4 into the transformer 8, the transmission path 7, the transformers 9 and 10a,
10b and the time-synchronized signal demodulators 5a and 5b for transmission to the synchronized devices 6a and 6b. Synchronized device 6a,
6b is a clock for creating time information added to the data sent from the controlled station to the control station, or a device that must be operated simultaneously between the controlled stations, for example, a circuit breaker that is turned on synchronously. There is. This allows the time adjustment signal to be transmitted using the same transmission line as the data. However, in such a configuration, if only one transmission line can be prepared and the data transmission speed is high (600 BPS or more), it is possible to synchronize if multiple frequencies cannot be transmitted on one line. Was impossible.

[Object of the Invention]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a time synchronization system for a device at a remote place by using a modulator / demodulator for data transmission when a plurality of frequencies cannot be used for one line.

[Points of the Invention]

The present invention transmits a time adjustment signal using a modulator / demodulator used for data transmission.
A time synchronization signal generator that generates a time synchronization signal that uses a code sequence that is not related to a normal data transmission signal code is provided, and in a controlled station, a time synchronization signal reception unit that receives only this time synchronization signal. By providing a data transmission modulator / demodulator, time synchronization of a device at a remote place is realized.

Examples of the invention

FIG. 1 shows the configuration of an apparatus for realizing the time synchronization method according to the present invention. In the figure, a data transmission signal generator 11 and a time adjustment signal generator 1 are shown at a control station.
2, a signal changeover switch 13 and a data transmission modulator 14 are provided, and the controlled station has a data transmission receiving unit 15, a time synchronization signal receiving unit 16, a synchronization device 17,
A data transmission demodulator 18 is provided. The time adjustment signal generator 12 generates a time adjustment signal unrelated to the data transmission signal code, and the time synchronization signal reception unit 16 receives only this time adjustment signal. In such a configuration, the data transmission signal generator 11 sends information in the data transmission format as shown in FIG. The data transmission format is composed of a sync word of, for example, 44 bits of "100 ... 001" added to the head, and the following 1st to nth information words. "100 ... 001" used as a synchronization word cannot be used as an information word. Data transmission receiver 1
Upon receipt of this synchronization word, 5 receives and processes the following information words as valid. The information words include selection / control words and set value words sent from the control station to the controlled station.When the controlled station receives the selection / control word, it starts the selection / control according to the information and sets the set value. When the word is received, the setting value is set. The time synchronization signal receiving unit 16 is configured not to receive this synchronization word. Moreover, from the time alignment signal generator 12, FIG.
As shown in, the time adjustment signal code of "011 ... 110" is transmitted. The code for this time alignment signal is
The time synchronization signal code is received by the time synchronization signal receiving section 16 as it is not related to any of the synchronization word and the information word as shown in FIG. 2 (a). The data transmission receiving unit 15 is configured not to receive the time adjustment signal code. During normal data transmission, the signal change-over switch 13 is in the position shown in the figure, so that the data in the data transmission format as shown in FIG. The data is transmitted to the data transmission receiving unit 15 and the time synchronization signal receiving unit 16 via the switch 13, the data transmission modulator 14, the transmission line 19, and the data transmission demodulator 18. When the synchronization word is received as described above, the data transmission receiving unit 15 receives and processes the following information words as valid ones. On the other hand, the time synchronization signal receiving unit 16 does not receive the synchronization word even if it is transmitted, because it is different from the time alignment signal code. When it is desired to match the time of the clocks at the controlled stations, or to simultaneously operate a predetermined device between the controlled stations, the signal changeover switch 13 is provided on the time setting signal generator 12 on the opposite side of the drawing. After switching, the time adjustment signal generator 12 sends out a time adjustment signal code as shown in FIG. 2 (b). The time adjustment signal code includes a signal changeover switch 13, a data transmission modulator 14,
It is transmitted to the data transmission receiver 15 and the time synchronization signal receiver 16 via the transmission line 19 and the data transmission demodulator 18. When the time synchronization signal reception unit 16 receives the time adjustment signal code, if the synchronized device 17 is a clock, the time data predetermined for this clock (this time data is shown in FIG. It may be transmitted and stored in advance in each controlled station using the data transmission format as shown). As a result, the clocks of the controlled stations can be set at the same time. Synchronized device 17
In the case of a predetermined device that is to be operated (stopped) at the same time, the time synchronization signal receiving unit 16 sends an operation (stop) command to the synchronized device 17 when the time synchronization signal code is received. , The synchronized devices 17 are simultaneously operated (stopped). On the other hand, the data transmission receiver 1
No. 5 is not received even if the time alignment signal code is transmitted, since it is different from the synchronization word. In this way, the time adjustment signal can be transmitted using the modulator / demodulator for data transmission.

【The invention's effect】

According to the present invention, a time adjustment signal is transmitted using a data transmission modulator / demodulator, and the time adjustment signal can be transmitted without separating the transmission line or providing a modulator / demodulator exclusively. .

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of an apparatus for realizing a time synchronization system according to the present invention, FIG. 2 is an explanatory diagram of a data transmission format and a time adjustment signal code used in the present invention, and FIG. It is a figure for demonstrating a synchronization system. 11 ... Data transmission signal generator, 12 ... Time adjustment signal generator, 13 ... Signal changeover switch, 14 ... Data transmission modulator, 15 ... Data transmission receiving section, 16 ... Time synchronization signal receiving section, 17 ... Synchronized equipment, 18 ... Demodulator for data transmission, 19 ... Transmission line.

Claims (1)

[Claims] 1. A time synchronization signal is transmitted simultaneously from a control station to a plurality of controlled stations at remote locations via a transmission line, and the time of synchronized equipment of each control station is based on the time synchronization signal. In the time synchronization system for synchronizing, a data transmission signal generator for generating a normal data transmission signal and a time adjustment signal generator for generating a time adjustment signal unrelated to the data transmission signal code are provided in the control station. And a data transmission receiving unit that receives only the data transmission signal, and time synchronization that receives only the time adjustment signal and performs time synchronization of the synchronized device. When the control station performs time synchronization of the synchronized devices of each controlled station, the control station uses the time adjustment signal generator instead of the data transmission signal generator. Time synchronization method and transmits a connection to the signal combined time each controlled plant.