JP3483342B2 - Data transmission system and signal selection connection device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission system and a signal selection / connection device, and more particularly to signal selection and communication between a plurality of lower order data terminal devices and a higher order device.

[0002]

2. Description of the Related Art In recent years, data communication systems have been end-to-end (E) based on modems with the spread of high-speed digital networks.
It is considered that the trunk system is aggregated by a digital multiplexer (digital MUX) instead of the end-to-end communication and a modem or the like is used for a line close to the data terminal equipment (DTE).

For example, JIS-X-5101 defines interface specifications between a data circuit terminating device (DCE) and a data terminal device. Further, there has been proposed a selective connection device in which a plurality of data terminal devices are connected to a data circuit terminating device and any one of the data terminal devices and the data circuit terminating device is selected and connected. By configuring such a selective connection device so as to satisfy the interface usage of JIS-X-5101, one of the data terminal devices is connected to the data line terminal device as required, and a device on the line side is connected. You can communicate with.

According to the interface specification of JIS-X-5101, when a data transmission request signal RS is given from the data terminal device to the selective connection device, another data terminal receives this transmission request signal RS. If communication is not performed between the device and the data circuit-terminating device, the transmission enable signal CS is turned on to give a transmission permission, and the data terminal device responds. On the other hand, with respect to the supply of the transmission request signal RS, if communication is already being performed between the other data terminal device and the data line terminal device, the transmission permission is not given and the transmission enable signal CS is not given. Reply off.

Further, there is a demand for extending the selective connection device and the data terminal device by an inter-modem communication system or the like in constructing a local system.

[0006]

However, in the case of extending such a selective connection device and a data terminal device by a communication system between modems, a transmission request is issued from the data terminal device in accordance with the interface specification of JIS-X-5101. The signal RS is, for example, ITU-T Recommendation V. 32, V.I. 32b
Even if it is supplied to a modem device complying with the specifications of IS, 32,
V. The 32 bis modem device itself can be taken in, but since the signal interface is not provided to give the taken transmission request signal RS to the selective connection device, the data terminal device does not have a signal interface. It is not possible to give a request to the selective connection device via the V.V. Three
2, V. It was not possible to intervene with a 32 bis modem device.

For this reason, it has been a great obstacle in constructing the data communication system by connecting the line and the local system.

From the above, even if an inter-modem data transmission line is interposed between the signal selection connection device and the data terminal device as described above, the transmission data from the data terminal device is fetched and selectively connected, It is required to provide a data transmission system and a signal selection connection device that can transmit to a host device.

[0009]

Therefore, according to the present invention, a plurality of
Data terminal device, host device, and a plurality of data terminals
Any one of the above-mentioned devices is interposed between the end device and the upper device.
Selectively connect the data terminal device and the upper device
In a data transmission system having a signal selective connection device , the above-mentioned problems are solved by the following characteristic configuration.

That is , in the data transmission system of the present invention,
At the time of transmission, each of the above data terminal devices acquires the transmission right.
Send the transmission signal including the synchronization signal immediately without performing the acquisition operation.
The signal selection and connection device is compatible with
Buffers the transmission signal from the above data terminal device
And a sync signal in the transmitted signal is detected
Then, the transmission permission request is output to the internal bus and the transmission right is acquired.
Is being buffered in the above device internal bus
Output the transmission signal, and while the transmission right is being acquired, the above-mentioned internal bus
When the received signal is given from, the corresponding data above
Each of the above data terminals that transmits the reception signal to the terminal device
A plurality of communication control means provided corresponding to the device;
Monitor the transmission permission request from each communication control means, and
Control means for giving a transmission right to the communication control means of
The transmission signal from the communication control means that has acquired the credibility is
Received via the internal bus and sent to the host device
In addition to receiving the signal received from the upper device
It has a communication control means for upper device which outputs to the internal bus.
It

[0011]

In the structure of the data transmission system of the present invention, the structure of the signal selecting / connecting device is particularly characteristic, and all the communication control means are connected to the data terminal device which is a lower device .
The sync signal in the transmission signal is detected, and the sync signal detection signal is given to the control means. This control means, ahead
The arrival synchronization signal is detected, and the communication control means that has notified the detection of the arrival synchronization signal is permitted to be transmitted to the host device. The transmitting communication control means that received permission, that sends a transmission signal from data terminal equipment to the host device via the communication control unit for high-level equipment.

With the configuration of the signal selection / connection device as described above,
Since the synchronization signal included in the transmission signal from the data terminal device is detected to determine whether or not the transmission permission is given, it is not necessary to determine the transmission request signal from the data terminal device as in the conventional case. I can judge. Therefore, even if it is given to the signal input terminal from the data terminal device through the transmission line between the modems, the conventional problem does not occur and the communication control is not performed.
Can give successful transmission permission to the control means, Ru can solve the conventional problems described above.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described with reference to the drawings.

FIG. 2 is a block diagram of the data transmission system of this embodiment. In FIG. 2, the data transmission system includes a signal selection / connection device 1, data terminal devices 2 and 3,
It is composed of modems 4 and 5, data line terminators 6 and 7, and a host computer 8. The data terminal device 2 is connected to the connection connector k1 of the signal selection connection device 1, and the data terminal device 3 is connected to the connection connector kn through a transmission line between the modems 4 and 5. on the other hand,
The data line terminating device 6 is connected to the connection connector J1 of the signal selecting / connecting device 1. Data line termination device 6
Is connected to the data line terminating device 7 on the host side by a long distance line. The data line terminating device 7 is connected to the host computer 8 and performs data transmission with the data line terminating device 6 to which the data terminal devices 2 and 3 are connected.

The data terminal device 2 transmits the transmission data as shown in FIG.
As shown in (a), it is generated in start-stop synchronization according to the specifications of JIS-X-5001, and is given to the connection connector k1 of the signal selection connection device 1. As a result, when the communication control circuit detects the start-stop synchronization signal included in the input data, the signal selection connection device 1 notifies the CPU, and the CPU permits the communication control circuit that first detects the synchronization signal to transmit. Then, the communication control circuit sends the data from the data terminal device 2 to the data line terminal device 6.

The data terminal device 2 and the signal selective connection device 1 are subject to the interface condition between the data line terminal device and the data terminal device according to JIS-X-5101. In the selective connection device 1, it is not necessary to give the transmission request signal RS to the signal selective connection device 1 as in the conventional case. Therefore, the signal selection connection device 1
, Such need to give a transmission permission signal CS to the data terminal device 2 to a conventional such RS signal Iga, the data terminal device 2, transmission enable signal as long as according to JIS-X-5101 C
Since it is configured to take in S , in the signal selection connection device 1 of the present embodiment, the data terminal device 2 can always send the transmission enable signal CS to the data terminal device 2 forcibly in advance. Ru can be output.

On the other hand, when the data terminal device 3 transmits, the transmission request signal RS is V.V. Given the modem 4 according to 32, the modem 4, through a short distance line, V.
Based on 32, training is performed with the opposite modem 5, and the modem 4 responds to the data terminal device 3 with a transmission enable signal CS. When the data terminal device 3 gives the transmission data to the modem 4, the modem 4 modulates the transmission data and gives the modulated signal to the modem 5 through the short distance line. The modem 5 demodulates the modulated signal, reproduces the data, and the signal selection / connection device 1
To the connection connector kn. Upon receiving this data, the communication control circuit of the signal selection connection device 1 detects the synchronization signal from the input data and notifies the CPU of the synchronization detection signal.
Gives the transmission permission to the communication control circuit which detects the synchronization signal first, and the communication control circuit transmits the data from the data terminal device 3 to the data line terminal device 6.

The synchronization signal in this case, may be a start-stop synchronization signal as described above (JIS-X-5001), otherwise,
It is also preferable to use the synchronous signal shown in FIG. 3B according to JIS-X-5002. At this time, the communication control circuit that detect the 16-bit synchronization signal (SYN).

In addition to JIS-X-5002, J
A high level data ring control procedure according to IS-X-5104 can also be used, in which case FIG.
As shown in, the flag at the beginning (8 bits, 0111111)
10) is detected as a sync signal.

[0020] By detecting the synchronizing signals from the above way modem between the transmission lines or these data, necessary to perform the determination for detecting a transmission request signal RS from the conventional type of data terminal equipment to give a transmission right Gana has. The signal selected connection device 1 takes a conventional such transmission request signal RS, it is not necessary to provide a transmission permission signal CS to the modem 5, the number of wires Ru is reduced.

The data transmitted from the communication control circuit of the signal selective connection device 1 in this manner is the data line termination device 6
Is transmitted to the long-distance line, received by the data line terminating device 7 on the host side, and given to the host computer 8. On the other hand, the data transmitted from the host computer 8 is transmitted from the data line terminating device 7 and given to the data line terminating device 6 through the long distance line. The data line terminating device 6 gives the received data to the signal selecting and connecting device 1, and the signal selecting and connecting device 1 broadcasts the received data from the communication control circuit, and the data terminal device 2 and the data terminal through the transmission line between the modems. Ru given to the device 3. Any of the data terminal devices 2 and 3 responds by address information of the received data, that sends again.

(Signal Selective Connection Device 1): FIG. 1 is a functional block diagram of the signal selective connection device 1. In FIG. 1, the signal selection connection device 1 includes connection connectors k1 to kn,
J1, interface circuits 11a to 11n, communication control circuits 12a to 12n, CPU 13, and program R
The OM 14, the working RAM 15, the main communication control circuit 16, and the main interface circuit 17 are included in the main bus 1.
The main components are connected by 9 and configured.

The interface circuits 11a to 11n are composed of a driver and a receiver, and the connection connectors k1 to k1.
The data of the data terminal device given from kn is taken in and given to the communication control circuits 12a to 12n. The interface circuits 11a to 11n are the communication control circuit 12a.
The data from 12n to 12n are output from the connectors k1 to kn to be given to the data terminal device.

The communication control circuits 12a to 12n receive the data from the interface circuits 11a to 11n, and when detecting the synchronization signal included in the data, notify the CPU 13 of the synchronization signal detection signal. When a transmission permission signal for permitting transmission is given from the CPU 13, the communication control circuit 12a
12n are transmitted for transferring the received data to the host device , and the transmitted data are parallel data as the main bus 1
Ru is given to the main communication control circuit 16 through 9. Further, when the communication control circuits 12a to 12n are given the received data from the main communication control circuit 16 as parallel data, the communication control circuits 12a to 12n perform parallel / serial conversion to obtain interface circuits 11a to 11n.
give to n.

The CPU 13 controls the entire apparatus by a program stored in the program ROM 14, and in particular, first provides the communication control circuits 12a to 12n with the data terminal device and the method of the synchronization method as information. In particular,
It is given to the communication control circuits 12a to 12n as information as to which of the synchronization signals in FIGS. 3 (a) to 3 (c) is to be detected and set.

Further, the CPU 13 has a communication control circuit 12a.
When the synchronization signal detection signal is given from any one of the above-mentioned to 12n, the transmission permission signal for giving the transmission permission is given to any of the earliest communication control circuits 12a to 11n.

The program ROM 14 contains a program used by the CPU 13 and is read by an instruction from the CPU 13. The working RAM also stores intermediate processing data for processing by the CPU 13, data of a synchronization method for coping with various synchronization methods, and the like.

The main communication control circuit 16 is the communication control circuit 12
The parallel data from either a~12n into serial data by the main interface circuit 17 Ru is outputted from the contact <br/> connection connector J1. Further, the main communication control circuit 16 serially / parallel converts the received data received by the main interface circuit 17 and broadcasts it as parallel data to the communication control circuits 12a to 12n. The main interface circuit 17 is composed of a driver and a receiver, and the transmission data from the main communication control circuit 16 is driven and output by the driver, and the reception data from the host device is received by the receiver, and the main communication control circuit 16 Give to.

(Operation of the signal selection / connection device 1): When transmission data is given to the connection connector k1 from the data terminal device, this transmission data is transferred to the interface circuit 11a.
To the communication control circuit 12a. The communication control circuit 12a is set in advance so that it can be transmitted to the data terminal device by turning on the transmission enable signal CS through the interface circuit 11a.

The communication control circuit 12a detects a sync signal from the data transmitted from the data terminal device and notifies the CPU 13 of the sync signal detection signal. The CPU 13, which has been notified of the synchronization signal detection signal, gives a transmission permission signal to the communication control circuit 12a that has notified the synchronization signal detection signal unless another communication control circuit is communicating. The communication control circuit 12a, to which this transmission permission signal is given, transmits the data from the data terminal device and gives it to the main communication control circuit 16. The main communication control circuit 16 outputs the given data from the main interface circuit 17 for the host device.

When a transmission line between modems is connected to the connection connector kn, the data from this line is taken into the interface circuit 11n and the communication control circuit 12
give to n. The communication control circuit 12n detects a sync signal from the data received by the data terminal device from the modem, and gives the sync signal detection signal to the CPU 13. This CPU 13
Upon receiving the synchronization signal detection signal, the communication control circuit 12 confirms whether another communication control circuit is given the transmission right. If the other communication control circuit is not given the transmission right, the communication control circuit 12
A transmission permission signal is given to n. The communication control circuit 12n receiving this transmission permission signal transmits the data of the data terminal device, gives it to the main communication control circuit 16, and causes it to be transmitted to the host device. If the transmission right is given to the other communication control circuit, the transmission permission is not given to the communication control circuit 12n.

As described above, the transmission request signal RS and the transmission enable signal C are provided between the communication control circuit 12n and the modem.
The transfer of S is unnecessary and the number of wires can be reduced. When the main interface circuit 17 receives data from the host device, the data is given to the main communication control circuit 16, where serial / parallel conversion is performed and parallel data is broadcast to all the communication control circuits 12a to 12n. These communication control circuits 12a to 12n perform parallel / serial conversion on the given parallel data and output serial data from the interface circuits 11a to 11n to the data terminal device.

(Communication control circuits 11a to 11n): FIG.
4 shows an example of a configuration of a communication control circuit 11a~11n
ing. In FIG. 4, the communication control circuit includes a serial input / output circuit (SIO) 111 and a microprocessor (MP).
112, program ROM 113, and working RA
And M114, and a data buffer circuit 11 5.

Data from the interface circuit (data
When data) from the terminal device is applied to the serial input-output circuit 111, is temporarily stored and held in the de Tabaffa circuit 115, the data microprocessor 112 is stored, the synchronization information data of the program and working RAM114 of Puroramu ROM113 Use to detect the sync signal.

When the sync signal is detected, the microprocessor 112 generates a sync signal detection signal and supplies it to the CPU from the serial input / output circuit 111 through the main bus.
When the transmission permission signal comes from the CPU, the microprocessor 1
Reference numeral 12 is for issuing a transmission command to the data buffer circuit 115, serial-to-parallel conversion from the serial input / output circuit 111, outputting it to the main bus, and giving it to the main communication control circuit.

Further, when the Shinfu enable signal transmission from the CPU is given, the microprocessor 112 does not send data in the data buffer 115, for example, it is transmitted when is held a certain time, to give a transmission permission It Further, when receiving the received data from the main communication control circuit, the data is received from the main bus, converted into parallel / serial by the instruction of the microprocessor 112, output from the serial input / output circuit 111 to the interface circuit, and given to the data terminal device.
It The main communication control circuit 16 can also be realized by the same configuration as that of FIG. 4 described above.

(Effects of Embodiment) According to the configurations of the data transmission system and the signal selection / connection device 1 of the above embodiments, the transmission request signal RS based on the conventional JIS-X-5101 is given from the data terminal device. Even if it does not exist, the signal selection connection device 1 detects the synchronization signal of the data from any one of the data terminal devices among the plurality of data terminal devices, selects the first-come-first-served priority, and selects without using a special control signal. Since the data can be transmitted from the communication control circuit to the host device, the conventional V. 32, V.I. Even if a modem such as 32bis exists, selective connection can be performed without any trouble.

Further, in data transmission from the host side to the data terminal side, data control is performed within the signal selection connection device 1 so as to be broadcast to all terminals, and special data control is required. Since it does not have any, the circuit configuration can be simplified.

Further, in FIG. 2, since the data terminal device 2 does not use the conventional transmission request RS, it does not affect the data transmission of other data terminals.

Further, the signal selection / connection device 1 described above has a simple circuit configuration and consumes less power. By applying the above data transmission system to, for example, a bank online system, a very efficient system can be constructed. Specifically, the host computer 8 and the data line terminating device 7 are the system of the bank head office, and the signal selection connection device 1, the data line terminating device 6, the data terminal device 2, and the modem 5 are the system of the bank branch, and the modem 4 and The data terminal device 3 can be constructed as a cash dispenser or the like.

(Other Embodiments) (1) In the above embodiments, the V.V. 32, V.I. 32
bis, V. 22, V.I. 22bis, V.I. 34 and the like can also be applied.

(2) Further, the synchronization signal system between the data terminal device and the signal selection connection device is not limited to the above-mentioned system, and for example, SDLC (Synchronous).
Data Link Control) is also applicable.

(3) Further, in FIG. 2, the data line terminating device 6 can be constructed as a time division multiplexer and the data line terminating device 7 can be constructed as a demultiplexer. As a result, a larger capacity data transmission system can be realized.

(4) Furthermore, the signal selection connection device 1 described above is not applied to line aggregation by the polling method, but can be applied to line selection connection by various methods.

[0045]

[0046]

As described above, according to the present invention, even if a data terminal device or a data transmission line between modems is interposed between the signal selective connection device and the data terminal device, the data terminal device detects the synchronization signal. transmission signal takes in selecting connect from, Ru can be realized a data transmission system and signal selection connecting device capable of transmitting to the host device.

[Brief description of drawings]

FIG. 1 is a functional configuration diagram of a signal selection connection device according to an embodiment of the present invention.

FIG. 2 is a configuration diagram of a data transmission system according to an embodiment.

FIG. 3 is an explanatory diagram of a synchronization system between the data terminal device and the signal selection connection device according to the embodiment.

FIG. 4 is a configuration diagram of a communication control circuit of the signal selection / connection device of the embodiment.

[Explanation of symbols]

1 ... Signal selection connection device, 2, 3 ... Data terminal device, 4,
5 ... Modem, 6, 7 ... Data line terminating device, 8 ... Host computer, 11a-11n ... Interface circuit,
12a to 12n ... Communication control circuit, 13 ... CPU, 14 ...
Program ROM, 15 ... Working RAM, 16 ... Main communication control circuit, 17 ... Main interface circuit, k1 to k
n, J1 ... Connector.

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Claims (4)

(57) [Claims] 1. A plurality of data terminal devices, a host device,
Intervened between the plurality of data terminal devices and the host device
And connect any of the data terminal devices and the host device
Data having signal selective connection device for selectively connecting
In the transmission system, each of the above data terminal devices performs a transmission right acquisition operation at the time of transmission.
If you send the transmission signal including the synchronization signal immediately without performing
And than, the signal selecting connection device, the transmission signal from the corresponding said data terminal equipment buffer
Ring and detect the sync signal in the transmitted signal
Output, a transmission permission request is output to the internal bus
Buffered in the above device bus when
The above-mentioned device outputs the transmission signal and is acquiring the transmission right.
When the received signal is given from the internal bus, the corresponding above
Each of the above data that transmits the received signal to the data terminal device
A plurality of communication control means provided corresponding to the terminal device
And monitoring the transmission permission request from each of the above communication control means,
Control means for giving a transmission right to any of the above communication control means
And a transmission signal from the communication control means that has acquired the transmission right
To the host device via the internal bus
In addition to transmitting, the received signal from the host device is
A data transmission system , comprising: a communication control means for a higher-level device that outputs the data to an internal bus . 2. At least a part of the data terminal device.
Is connected via the data transmission line between modems.
The data transmission system according to claim 1, wherein the data transmission system is connected to a connection device . 3. A transmission signal from each of the data terminal devices
The data transmission system according to claim 1 or 2, characterized in that there are two or more types of formats . 4. A plurality of data terminal devices and the host device
Intervening between any of the above data terminal devices and above
In the signal selection connection device for selectively connecting with the communication device, the transmission signal from the corresponding data terminal device is buffered.
Ring and detect the sync signal in the transmitted signal
Output, a transmission permission request is output to the internal bus
Buffered in the above device bus when
The above-mentioned device outputs the transmission signal and is acquiring the transmission right.
When the received signal is given from the internal bus, the corresponding above
Each of the above data that transmits the received signal to the data terminal device
A plurality of communication control means provided corresponding to the terminal device
And monitoring the transmission permission request from each of the above communication control means,
Control means for giving a transmission right to any of the above communication control means
And a transmission signal from the communication control means that has acquired the transmission right
To the host device via the internal bus
In addition to transmitting, the received signal from the host device is
Signal selection connecting device according to claim <br/> having a communication control unit for the higher-level device to be output to置内bus.