JPH0646730B2 - Interface device between 4-wire private line and data terminal equipment for digital circuit switching network - Google Patents

Description

Description: TECHNICAL FIELD OF THE INVENTION The present invention relates to a data terminal device for a 4-wire dedicated line and a digital circuit switching network (hereinafter, the data terminal device is referred to as DTE).
It relates to an interface device between.

[Technical background of the invention and its problems]

Conventionally, a system using a 4-wire dedicated line as a transmission medium has been configured as shown in FIG. That is, the dedicated line modem 1
And 2 are connected by a 4-wire dedicated line 3. Unillustrated DTEs are connected to the dedicated line modems 1 and 2, respectively.
After all, these DTEs perform data communication via the dedicated line modems 1 and 2 and the four-line dedicated line 3.

In the leased line modems 1 and 2, receivers R ₁ and R ₂ and transmitters S ₁ and S ₂ are provided. This receiver R ₁ , R ₂
Requires an equalization process for stabilizing the reception state-so-called training. This training is CCIT
T. Recommendation, V. When the system is started up (for example, when the power is turned on) by 29, it is executed on the up line and the down line of the 4-wire dedicated line 3, and when equalization is performed, this state is maintained until the system goes down. To be done. However,
Data communication using this 4-wire dedicated line is communication in which the communication partner is fixed (so-called point-to-point communication).
It was a prerequisite, and I couldn't make the opponent variable.

On the other hand, in the digital circuit switching network which is becoming widespread these days, a modem is not necessary, but access is made to the network based on the established standard (CCITT recommendation, X.21), and it is possible to communicate with any other party. Communication is possible. Further, this digital circuit switching network can be connected to the above-mentioned 4-wire dedicated line, but even if the 4-wire dedicated line is connected, data communication by the 4-wire dedicated line is not possible. Was only for a particular 4-wire leased line.

Therefore, in the system in which the 4-wire dedicated line is connected to the digital circuit switching network, there is a drawback that only the fixed partner can communicate through the 4-wire dedicated line. Further, in a system in which a 4-wire dedicated line and a digital line are mixedly connected to a digital circuit switching network, an interface condition between a modem connected to the 4-wire dedicated line and a DTE connected to this modem. Is CCITT Recommendation, V.29
It is due to. Also, the interface condition between the interface device connected to the digital line and the DTE connected to this interface device is CCIT.
T. Recommendation, X.21.
TE was forced to have different functions.

Therefore, when the 4-wire dedicated line is connected to the digital circuit switching network, D connected to any other 4-wire dedicated line
There is a demand that communication with the TE is possible and that all DTEs of the system can be unified by the DTE for the digital circuit switching network.

[Object of the Invention]

The present invention has been made in view of the above requirements, and an object of the present invention is to set an arbitrary 4 even in communication by a 4-wire dedicated line.
It is possible to communicate between the DTEs connected to the dedicated wire line,
Another object of the present invention is to provide an interface device between the 4-wire dedicated line and the DTE for the digital circuit switching network, which is used to make the DTE the DTE for the digital circuit switching network.

[Outline of Invention]

Therefore, according to the present invention, a data terminal device interface control unit connected to a data terminal device for a digital circuit switching network and performing a calling / receiving process with this device, and a data terminal device interface control unit are connected. And a modem control unit connected to the dedicated line modem for detecting and transmitting / receiving the start / training signal of the dedicated line modem and transmitting / receiving data and control signals to / from the data terminal device interface control unit; A dedicated line modem that modulates and demodulates data under the control of the control unit,
A network control unit connected to a 4-wire dedicated line and controlling the digital switching network via the 4-wire dedicated line; and a start / selection signal transmission / response of the network control unit connected to the network control unit. A network control unit control unit for confirming / detecting an incoming call, the data terminal device interface control unit, the modem control unit, and the network control unit control unit are connected to the network control unit control unit via a system bus to control these units and control the entire device. A main control unit having a processor function for performing the above is provided to constitute an interface device between the 4-wire dedicated line and the DTE for the digital circuit switching network.

Example of Invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a block diagram of an embodiment of the present invention. In the figure, 11 is a digital circuit switching network DT (not shown).
A data terminal device interface (hereinafter, referred to as DIF) which is connected to E and performs calling / receiving processing with this DTE.
It is a control unit. Specifically, the transmission signal line T, the reception signal line R, the control line C, the identification line I, and the signal element timing line S are used to control the DTE and the DIF controller 11 (not shown).
And are connected. Reference numeral 12 is a modem control unit. The modem control unit 12 transmits and receives data and control signals to and from the DIF control unit 11, and also activates the dedicated line modem 13 and detects and transmits and receives a training signal. The modem control unit 12 and the DIF control unit 11 include a transmission data line 11a, a transmission timing line 11b, and a reception data line 11
c, the reception timing line 11d, and the modem control unit 12 and the dedicated line modem 13 are connected by the modem control signal line 12a.

The leased line modem 13 modulates and demodulates data under the control of the modem control unit 12, and is connected to a network control unit (hereinafter referred to as NCU) 14 by an output data line 13a and an input data line 13b. Reference numeral 15 indicates an NCU control unit. The NCU control unit 15 performs activation of the NCU 14, transmission of a selection signal, confirmation of response, and detection of incoming call.
The NCU 14 includes an NCU control unit 15 and an NCU control signal line 1
Line 1 that is connected by 5a and is a 4-wire dedicated line
4a and 14b, the signal is sent out on the line 14a, and the signal on the line 14b is taken in.

Reference numeral 16 is a main control unit having a processor function. The main control unit 16 uses the bus 17 to control the DIF control unit 11,
Connected to the modem control unit 12 and the NCU control unit 15,
In addition to controlling each of these parts, the entire device is controlled.

The interface device 10 thus configured first performs the calling process as follows.

A digital circuit switching network DTE (not shown) connected to the DIF control unit 11 (hereinafter simply referred to as DTE)
Sends a call request signal to the DIF control unit 11 via the transmission signal line T and the control line C. Then, the data indicating that the calling request is made is transmitted from the DIF control unit 11 to the main control unit 16 via the bus 17. Accordingly, the main control unit 16 inquires of the NCU control unit 15 via the bus 17 whether there is a call collision, and if there is no call collision, the bus 1
Data indicating that the selection is possible is sent to the DIF control unit 11 via 7. According to this, the DIF control unit 11 outputs a signal indicating that the network can receive the selection signal via the reception signal line R and the identification line I.

Upon receiving this, the DTE receives the control line C and the transmission signal line T.
Thus, the selection signal information is sent to the DIF control unit 11.
This selection signal information is sent from the DIF control unit 11 to the main control unit 16 via the bus 17. Here, the main control unit 1
6 sends the selection signal information received above to the NCU control unit 15 via the bus 17. As a result, NC
The U controller 15 activates the NCU 14 and sends a selection signal from the NCU 14 to the line 14a. At the same time, the main control unit 16 sends the data indicating “calling” to the DIF control unit 11 via the bus 17. This allows the DTE
Receives a signal indicating that "calling" from the reception signal line R and the identification line I.

When a response signal is sent from the other party via the line 14b in response to the selection signal, the NCU 14 takes in this. The NCU control unit 15 confirms that the response signal has arrived at the NCU 14. Here, the NCU control unit 15 sends data indicating confirmation of the response signal to the main control unit 16 via the bus 17. Then, the main control unit 16 causes the bus 17
A command is sent to the modem control unit 12 via the so as to activate the transmission side unit (modulation unit) in the dedicated line modem 13.
As a result, the modem control unit 12 causes the dedicated line modem 13 to
Start the sending side in. The dedicated line modem 13 is started up, and the output data line 13a, NCU 14, line 14a
A training signal is sent to the other party via.

Here, the other side is also provided with the same interface device 10 as in FIG. 2, and if the receiving side (demodulation section) of the dedicated line modem 13 succeeds in the training, the other side will receive the line 14b. Then, a training signal is sent out. This training signal reaches the leased line modem 13 via the NCU 14 and the input data line 13b. The modem control unit 12 detects this and sends the data indicating that the training signal is sent from the other side to the main control unit 16 via the bus 17. Along with this, the modem control unit 12 uses the training signal to make the leased line modem 1
3. Recipient side training is performed. As a result, if the training is successful, the modem controller 12 causes the bus 17
The data indicating that the training was successful is sent to the main control unit 16 via.

Receiving this, the main control unit 16 gives data to the modem control unit 12 via the bus 17 so as to send a communication start command. Therefore, the modem control unit 12 sends the communication start command signal to the modem control signal line 12a and the dedicated line modem 1
3, the data is sent to the other party via the output data line 13a, the NCU 14, and the line 14a. In response to this, the other party sends back a communication start response signal. This communication start response signal is transmitted to the line 14b, the NCU 14, the input data line 13b,
It reaches the modem control unit 12 via the dedicated line modem 13 and the modem control signal line 12a. The modem control unit 12 sends data indicating that the communication start response signal has been received to the bus 1
7 to the main control unit 16. This enables data transmission / reception via the 4-wire dedicated line (lines 14a and 14b).

Therefore, the main control unit 16 outputs instruction data to the DIF control unit 11 via the bus 17 so as to notify the DTE that communication is possible. As a result, a signal indicating that communication is possible is given to the DTE from the DIF control unit 11. After this, the signals output from the DTE are transmitted signal lines T and D.
IF control unit 11, transmission data line 11a, modem control unit 1
2. The data is sent to the other party via the modem control signal line 12a, the dedicated line modem 13, the output data line 13a, the NCU 14, and the line 14a. Also, the signal output from the other side is
The line 14b, the NCU 14, the input data line 13b, the dedicated line modem 13, the modem control signal line 12a, the modem control unit 12, the reception data line 11c, the DIF control unit 11, and the reception signal line R reach the DTE.

It is assumed that communication is performed in this manner, and a line restoration request is output from the DTE at the end of communication. Then, the DIF control unit 11 sends the data to that effect to the main control unit 16 via the bus 17. Main controller 1 that received this data
6 sends data to the modem control unit 12 via the bus 17 to instruct the transmission side unit of the leased line modem 13 to stop operating. As a result, the modem control unit 12 stops the operation of the transmission side unit of the leased line modem 13, and the signal sent from the other party as a response to the other party disappears and the signal does not arrive at the leased line modem 13. Wait for When the signal does not arrive, the modem control unit 12 confirms this and sends data to that effect to the main control unit 16 via the bus 17. Then, the main control unit 16 sends the data indicating the restoration confirmation to the DIF control unit 11 via the bus 17, and as a result, the DIF control unit 11 gives the restoration confirmation signal to the DTE. Since the DTE is now in the ready state, the DIF control unit 11 detects this and sends data indicating that the DTE is in the ready state to the main control unit 16 via the bus 17. The main control unit 16 receives this data, confirms that the DTE is in the ready state, finishes the restoration process, and finishes the series of call origination processes.

Next, the incoming call processing in the interface device 10 will be described.

When an incoming signal arrives at the NCU 14 via the line 14b, the NCU controller 15 detects this and sends data indicating the arrival of the incoming signal to the main controller 16 via the bus 17. As a result, the main control unit 16 starts incoming call processing.

Next, the training signal is sent from the other party and line 1
4b, NCU 14, and input data line 13b to reach the leased line modem 13. With this training signal, the modem control unit 12 trains the receiving side of the leased line modem 13 and sends the resulting data to the main control unit 16 via the bus 17. When the data indicating that the training is successful is received, the main control unit 16 causes the bus 1
Data for instructing to activate the transmission side of the leased line modem 13 is sent to the modem control unit 12 via 7. As a result, the modem control unit 12 activates the transmission side unit of the leased line modem 13 and sends the training signal to the leased line modem 1
3, the data is sent out via the output data line 13a, the NCU 14, and the line 14a. When the training of the receiving side of the modem on the other side succeeds by this training signal, the line 14b, the NCU 14, and the input data line 13 are transmitted from the other side.
A communication start command signal is sent to the leased line modem 13 via b. The data indicating that the signal has arrived is sent from the modem control unit 12, and the main control unit 16 that has received the data sends the data indicating that the communication start command signal has been received to the DIF control unit 11. The DIF control unit 11 sends an incoming call signal to the DTE through the reception signal line R and the identification line I. The DTE having received this sends an incoming call acceptance signal to the DIF control unit 11 via the transmission signal line T and the control line C. Upon receiving this, the DIF control unit 11 sends data indicating that the incoming call acceptance signal has been received to the main control unit 16 via the bus 17. Then, the main controller 16 causes the modem controller 12 to
Output data instructing to send a response signal to. As a result, the modem control unit 12 controls the dedicated line modem 13 by the modem control signal line 12a, and as a result, the response signal is output from the dedicated line modem 13 to the output data line 1
3a, the NCU 14, and the line 14a. Further, the main control unit 16 uses the DIF via the bus 17.
Data is given to the control unit 11 so as to notify the DTE that communication is possible. The DIF control unit 11 sends a signal notifying that communication is possible to the DTE via the reception signal line R and the identification line I. As a result, the 4-wire system (lines 14a, 14
Data can be transmitted and received via b).

After this, the signal output from the other party is the line 14b,
NCU 14, input data line 13b, dedicated line modem 1
3, the modem control signal line 12a, the modem control unit 12, the reception data line 11c, the DIF control unit 11, and the reception signal line R to reach the DTE. Further, the signal output from the DTE is the transmission signal line T, the DIF control unit 11, the transmission data line 1
1a, modem control unit 12, modem control signal line 12a, dedicated line modem 13, output data line 13a, NCU 14,
It is sent to the other party via the line 14a.

When the communication is performed in this way and the signal does not arrive at the receiving side of the leased line modem 13, the modem control unit 12 detects this, and the data to that effect is sent to the main control unit 16 via the bus 17. Send out. Based on this, the main control unit 16 outputs data instructing the DIF control unit 11 via the bus 17 to send a signal indicating that the received signal has disappeared to the DTE. The DIF control unit 11 informs the DTE of this, and a line disconnection signal is sent from the DTE. Main controller 1
6 receives data from the DIF control unit 11 indicating that the line disconnection signal has been output from the DTE, and the modem control unit 12
The data of the stop instruction of the receiving side of the leased line modem 13 is output to. As a result, when it is confirmed that the receiving side of the leased line modem 13 has stopped, the main controller 16 gives data to the DIF controller 11 so as to send a disconnect ready signal to the DTE. When the DTE receives this signal, the DTE sends a ready signal to the DIF control unit 11. The DIF control unit 11 notifies the main control unit 16 that the DTE is in the ready state, and the main control unit 16 receives this, whereby a series of incoming call processing ends.

A system that employs such an interface device is shown in FIG. 10 _1, 10 _2, 10 ₃ are the same interface device and the interface device shown in Figure 2. 31
Is a digital circuit switching network,
₁ , 32 ₂ , 32 ₃ , 32 ₄ are connected, and 4-wire dedicated lines 33 ₁ , 33 ₂ , 33 ₃ are connected. 34 ₁ , 34 ₂ , ..., 34 ₅ denote DTEs for digital circuit switching networks, and 35 ₁ , 35 ₂ , 35 ₃ , 3
5 _4, DTE for digital lines and digital circuit-switched network
Interface with. Reference numeral 36 indicates a data storage device.

According to such a system, the digital lines 32 ₁ , 3
D for digital circuit switching network connected to 2 ₂ and 32 ₄
The data storage devices 36 connected to the TEs 34 ₁ , 34 ₂ , 34 ₄ and the digital line 32 ₃ can communicate with each other between the terminals. Also, 4-wire dedicated line 33 ₁ , 33 ₂
The data storage device 36 connected to the DTEs 34 ₃ and 34 ₅ and the 4-wire type private line 33 ₃ are freely connected to each other by the functions of the interface devices 10 ₁ , 10 ₂ and 10 ₃ in any communication between the terminals. Can be selected. Therefore, the DTE connected to the digital line and the DTE connected to the 4-wire dedicated line
And can communicate via the data storage device 36. This indicates that the interface device according to the present invention can construct a communication system only with a DTE for a digital circuit switching network, and takes into consideration the characteristics of the line, the four-wire type for long-distance communication. We show that it is possible to construct a system that uses a digital line for short distances by using a dedicated line.

〔The invention's effect〕

As described above, according to the present invention, it is possible to communicate with a terminal device connected to any other 4-wire dedicated line by using the 4-wire dedicated line. For this reason, it is possible to construct a circuit switching system in which the communication partner is not fixed by the 4-wire dedicated line. Further, the interface device according to the present invention can comply with the CCITT recommendation, X.21 as the interface condition with the connected terminal device, and can use the DTE for the digital circuit switching network. Therefore, it is possible to construct a system in which the 4-wire dedicated line and the digital line are mixed with the same DTE by using the digital circuit switching network to which the 4-wire dedicated line can be connected.
In this case, since the same DTE is used, it is possible to extend the communication service conventionally provided in the digital line to the 4-line dedicated line. Further, by using the storage device, communication between the digital line and the four-line dedicated line is possible though indirectly.

[Brief description of drawings]

FIG. 1 is a block diagram of a communication system using a conventional 4-wire leased line, FIG. 2 is a block diagram of an embodiment of the present invention, and FIG. 3 is a block diagram of a communication system employing the device of the present invention. . 10, 10 ₁ , 10 ₂ , 10 ₃ ... Interface device, 11 ... DIF control unit, 12 ... Modem control unit, 13 ... Dedicated line modem, 14 ... NCU, 14a, 14b ... Line (4-wire dedicated line) 15 ... NCU control unit, 16 ... Main control unit, 17 ... Bus

Claims (1)

[Claims] 1. A data terminal device interface control unit which is connected to a data terminal device for a digital circuit switching network and performs call processing and call receiving process with the device, and is connected to the data terminal device interface control unit. And a modem control unit connected to the leased line modem for detecting and transmitting / receiving a start-up / training signal of the leased line modem and transmitting / receiving data and control signals to / from the data terminal device interface control unit, and the modem control A dedicated line modem for modulating / demodulating data under the control of a unit, a network control unit connected to a four-line dedicated line and transmitting or receiving a signal on the four-line dedicated line, and a network control unit connected to the network control unit. Activation of the network control unit
A network control unit control unit for transmitting a selection signal, confirming a response, and detecting an incoming call, the data terminal device interface control unit, the modem control unit, and the network control unit control unit, which are connected to each other via a system bus. Of the digital circuit-switching network terminal device or the incoming call from the network control unit control unit is detected. An interface device between a 4-wire dedicated line and a data terminal device for a digital circuit switching network, which has a main control unit for instructing a modem control unit to train the dedicated line modem and for performing line connection processing corresponding to a communication partner. .