JPH0828782B2 - Data communication device - Google Patents

Description

The present invention relates to a data communication device which transmits and receives various data using a telephone line.

[Conventional technology]

2. Description of the Related Art A data communication device that transmits and receives various data using a telephone line is used. FIG. 2 is a block diagram showing the configuration of a conventional data communication device. In this device, the monitoring center 1 exchanges data with the terminal devices 3 to 3n and 4 to 4n via the telephone line 2. The terminal devices 3 to 3n have a transmission / reception system using the FSK modulation method, and the terminal devices 4 to 4n have the MF modulation method. The FSK modulation method and the MF modulation method will be described later.

The monitoring center 1 is provided with a CPU 5 for performing a predetermined control, and a memory 6 and a modem 7 are connected to the CPU 5. The modem 7 is connected to the signal terminal of the network control circuit 8a.

On the other hand, the CUP 9 performs a predetermined control, and the memory 10 and the model 11 are connected to each other. The modem 11 is connected to the signal terminal of the network control circuit 8b. The exchange terminals of the network control circuits 8a and 8b are connected to one end of the telephone line 2.

The terminal devices 3 to 3n and 4 to 4n are installed in each building to monitor the equipment in the building and exchange the equipment monitoring information with the monitoring center 1. As described above, the terminal devices 3 to 3n
It is equipped with FSK modulation system, and these are shown in FIG.
It is shown as.

Further, the terminal devices 4 to 4n are provided with the MF modulation system as described above, and these are shown as the terminal II in FIG.
Here, the FSK modulation method and the MF modulation method are shown in FIG.
A brief description will be given using (b).

FIG. 3 (a) is a waveform diagram of the FSK modulation method, and FIG. 3 (b).
FIG. 3 is a waveform diagram of the MF modulation method. FSK modulation method, the transmitting side, for example, certain low-frequency signal F _L with the digital signal "1", the constant that is a digital signal "0" frequency signal F _H
This is a system in which the signals are modulated and transmitted, and the receiving side demodulates these signals into digital signals "1" and "0".

On the other hand, MF modulation system at the transmission side, a digital signal composed of a plurality of bits, for example, a low-frequency signal F _L1 defined ones of the the "0001" more of the low-frequency signal, among the plurality of high-frequency signals In this method, a two-frequency combination signal (F _L1 + F _H1 ) with a predetermined high frequency signal F _H1 is transmitted, and the receiving side demodulates this to a digital signal “0001”. The same applies to the illustrated signal wave (F _L2 + F _H2 ).

For example, when transmitting data from the terminal device 3 to the monitoring center 1, the modem 7 that performs modulation / demodulation by the same FSK modulation method.
Network control circuit 8a is selected for transmission to. Therefore, the data communication is sent from the terminal 3 to the modem 7 via the telephone line 2 including a switch and the network control circuit 8a. The modem 7 demodulates the data signal into a digital signal, and based on the signal, the CPU 5 and the memory 6 recognize the transmission point (terminal device 3) and analyze the monitoring information. The same applies when data is transmitted from the terminal devices 4 to 4n to the monitoring center 1.

Further, the transmission from the monitoring center 1 to the terminal device 3 is transmitted from the modem 7 and the network control circuit 8a to the terminal 3 via the telephone line 2 so that necessary monitoring information can be received and necessary treatment can be taken. In that case, as a matter of course
Demodulated into a signal in the K modulation system.

 The same applies to the transmission for the terminals 4 to 4n.

[Problems to be Solved by the Invention]

In the above data communication device, since the terminal device includes both the FSK modulation system and the MF modulation system, the monitoring center 1 side necessarily supports the network control circuits 8a, 8b, CP corresponding to each modulation system.
U5,9 and memories 6,10 must be provided separately. On the other hand, the operator of the monitoring center 1 uses the FS during the operation.
It was extremely troublesome because it was necessary to always recognize whether the terminal was a K modulation type terminal or an MF modulation type terminal. In order to avoid such a complication of the configuration, all the modulation methods of the terminal device should be unified to the latest modulation method, that is, one FSK modulation method. Equipment
It is difficult to unify the modulation methods because the cost for replacing the terminal equipment with the FSK modulation method becomes enormous, and there is a serious defect that the monitoring system becomes blank during the replacement.

An object of the present invention is to solve the above-mentioned problems of the prior art, to simplify the structure of the monitoring center without unifying the modulation methods, and to facilitate the operation of the operator. To provide the equipment.

[Means for solving the problem]

To achieve the above object, the present invention comprises a plurality of terminal devices, a monitoring center for monitoring these terminal devices, and a communication line for exchanging data between the terminal devices and the monitoring center. In a data communication device in which different modulation / demodulation systems are mixed in the modulation / demodulation devices provided in each of the terminal devices, a network control circuit is provided at the monitoring center, and each modulation / demodulation system connected to the network control circuit is supported. A plurality of modulation / demodulation devices, each detection means connected to each of the modulation / demodulation devices to detect that a signal is output from the corresponding modulation / demodulation device, and a detection signal of the detection means when receiving data from each of the terminal devices. Selection means for selecting a modulation / demodulation device that matches the modulation / demodulation method of the terminal device based on the above.

Further, the present invention comprises a plurality of terminal devices, a monitoring center for monitoring these terminal devices, and a communication line for exchanging data between the terminal devices and the monitoring center,
In a data communication device in which different modulation / demodulation systems are mixed in the modulation / demodulation devices provided in each of the terminal devices, the monitoring center corresponds to a network control circuit and each of the modulation / demodulation systems connected to the network control circuit. A plurality of modulation / demodulation devices, respective detection means connected to each of the modulation / demodulation devices to detect that a signal is output from the corresponding modulation / demodulation device, a memory for storing relevant data of each terminal device and a modulation method, and At the time of receiving data from each terminal device, based on the detection signal of the detecting means, at the time of transmitting data to each terminal device, based on the related data stored in the memory, a modulation / demodulation method of the terminal device of the transmission / reception partner. And a selecting means for selecting a matching modulator / demodulator.

[Action]

When data is transmitted from the terminal device to the monitoring center, it is transmitted to the monitoring center by one line via the switch of the data communication line. In the monitoring center, this data is input to each modulator / demodulator, the modulator / demodulator that has output is recognized by the detector, the modulator / demodulator is selected by the selector, and the data transmitted via the selected modulator / demodulator. To receive.

On the other hand, when transmitting data from the monitoring center to a predetermined terminal device, the modulation / demodulation method of the modulation / demodulation device of the predetermined terminal device is read out from the associated data of each terminal device and the modulation method stored in the memory, The modulator / demodulator of the corresponding monitoring center is selected by the selecting means, and the data to be transmitted is modulated through this modulator / demodulator for transmission.

〔Example〕

 Hereinafter, the present invention will be described based on the illustrated embodiments.

FIG. 1 is a block diagram of a data communication device according to an embodiment of the present invention. In the figure, the same parts as those shown in FIG. Reference numeral 12 denotes a network control circuit, which is provided in the number of the conventional network control circuits 8a and 8b according to the modulation method of the terminal device, but in the present embodiment, only one is provided. Numerals 13 and 14 are detection circuits connected to the modems 7 and 11, respectively, and detect the outputs when the modems 7 and 11 output. 15 and 16 are CPU and memory respectively,
It has the same functions as the CPU and memory in conventional devices. However, the memory 16 adds the function of the conventional memory,
The modulation schemes of the respective terminal devices 3 to 3n and 4 to 4n are stored. In the conventional device, the CPU and the memory are provided by the number corresponding to the modulation method of the terminal device, whereas in the present embodiment, only one is provided for each. Reference numeral 17 is a switch for selecting the modem 7 or the modem 11 according to a command signal from the CPU 15. The monitoring center having such a configuration is represented by reference numeral 1 '.

Next, the operation of this embodiment will be described. Now the modulation method is FS
When transmitting data from the K-type terminal 3 to the monitoring center 1 ', the terminal device 3 calls the monitoring center 1'using the telephone number of the monitoring center 1', and then starts transmission. In this way, when calling the monitoring center from the terminal device side, conventionally, since the network control circuit was configured separately for each modem, a different number was used for calling the monitoring center for each modulation method. In this embodiment, a common telephone number can be used for all terminal devices. Further, the telephone line does not require a line for each modulation method, and can be a common one line, and the number of lines can be reduced.

Now, when the terminal device 3 and the monitoring center 1'are connected by a telephone line, data is transmitted next. This data is FS
It is transmission by the K modulation method, and is input to the modems 7 and 11 via the network control circuit 12. By the way, since the modem 7 is an FSK modulation type modem (modem I) and the modem 11 is an FM modulation type modem (modem II), when the above data is input, an output demodulated only from the modem 7 is generated. , No output from the modem 11. The detection circuit 13 detects that there is an output from the modem 7, and outputs this to the CPU 15. CPU15 confirms the detection signal from the detection circuit 13,
Switch 17 to the modem 7 side. As a result, the data from the terminal device 3 is demodulated by the modem 7 and the CPU 15
Received by. After that, the CPU 15 and the memory 16 perform the same processing as the conventional one.

On the other hand, when data is transmitted from the monitoring center 1'to the terminal device 3, the monitoring center 1'designates the terminal device 3, and the CPU 15 calls the modulation method of the terminal device 3 from the memory 16 and responds to this. Switch 17 to the modem 7 side. After that, the data is modulated by the FSK method,
The signal is transmitted, received by the terminal device 3, and demodulated by the FSK method.

When exchanging data between the terminal devices 4 to 4n and the monitoring center 1 ', the switch 17 is switched to the modem 11 side,
Also, when data is received at the monitoring center 1 ', the detection circuit 14
It is apparent from the above description that the detection signal is output to the CPU 15.

As described above, in this embodiment, since the switch is provided on the monitoring center side and the same modem as the modulation system of the other side of the data signal transmission / reception is selected, the number of network control circuits, CPUs, and memories can be reduced. Therefore, the structure can be simplified. Further, since there is one network control circuit, it is possible to reduce the wiring between the exchange and the monitoring center to one. Further, the operator does not need to pay any attention to the modulation method in data transfer, and the operator's burden can be reduced.

In the description of the above embodiment, the case where there are two types of modulation systems has been illustrated, but it is clear that the present invention can be applied even if there are three or more types.

〔The invention's effect〕

As described above, in the present invention, a plurality of modulation / demodulation devices corresponding to the modulation / demodulation system of the modulation / demodulation device of each terminal device are provided in the monitoring center, and one of these modulation / demodulation devices that matches the modulation / demodulation system of the communicating terminal device is provided. Since the selection is made by the selection means, it is possible to simplify the structure of the monitoring center and replace the burden on the operator without replacing the modulation / demodulation device on the terminal side.

[Brief description of drawings]

FIG. 1 is a block diagram of a data communication device according to an embodiment of the present invention, FIG. 2 is a block diagram of a conventional data communication device, and FIGS. 3 (a) and 3 (b) are waveform diagrams for explaining a modulation method. is there. 1 '... monitoring center, 2 ... telephone line, 3-3n, 4-4n ...
… Terminal device, 15 …… CPU, 16 …… Memory, 7,11 …… Modem, 12 …… Network control circuit, 13,14 …… Detection circuit, 17 …… Switch.

Claims (2)

[Claims] 1. A terminal device, a monitoring center for monitoring these terminal devices, and a communication line for exchanging data between the terminal devices and the monitoring center. In the data communication device in which different modulation / demodulation systems are mixed in the modulation / demodulation devices being provided, in the monitoring center, a network control circuit, and a plurality of modulation / demodulation devices corresponding to each modulation / demodulation system connected to the network control circuit, Each detecting means connected to each of these modulating / demodulating devices to detect the output of a signal from the corresponding modulating / demodulating device, and when receiving data from each of the terminal devices, the modulating / demodulating device of the terminal device based on the detection signal of the detecting device. A data communication device, comprising: a selection unit that selects a modulation / demodulation device that matches the system. 2. A terminal device, a monitoring center for monitoring these terminal devices, and a communication line for exchanging data between the terminal devices and the monitoring center. In the data communication device in which different modulation / demodulation systems are mixed in the modulation / demodulation devices being provided, in the monitoring center, a network control circuit, and a plurality of modulation / demodulation devices corresponding to each modulation / demodulation system connected to the network control circuit, Each detecting means connected to each of these modulation / demodulation devices to detect that a signal is output from the corresponding modulation / demodulation device, a memory for storing related data of each of the terminal devices and the modulation method, and data from each of the terminal devices. At the time of reception, the transmission / reception based on the detection signal of the detection means, and at the time of transmission of data to each of the terminal devices, based on the related data stored in the memory. Data communication apparatus characterized in that a selection means for selecting a modem that matches the modem scheme of the other terminal device.