JPH0370234A - Data communication system - Google Patents

Abstract

PURPOSE:To make an electronic automatic exchange small by integrating plural data conversion means and a time division switch interface means in the elec tronic automatic exchange so as to attain data communication between different data conversion systems. CONSTITUTION:A data conversion circuit 4 for data communication is integrated in an electronic automatic exchange and used in common when data terminal equipments 10, 11 accommodated in the electronic automatic exchange make data communication. Then each data conversion circuit 42 in the data communi cation data conversion circuit 4 connects fixedly to a predetermined channel of a time division switch 3. Thus, the converted data from the data terminal equipments 10, 11 is converted by the data conversion circuit 42 selected fixedly among plural data converters 4. Thus, the electronic automatic exchange is made small.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a data communication method for a private digital electronic exchange that provides data communication services including ISDN services, and particularly relates to data communication methods for converting between different data conversion methods. It is related to communication methods.

[Prior Art] In this type of conventional data communication system, a plurality of data conversion circuits are provided in an electronic exchange, and the plurality of data conversion circuits are connected to an interface circuit of a data terminal device to perform data communication. At this time, a data conversion circuit corresponding to the data terminal device of the other party with which data communication is to be performed is selected and switched, and the data to be sent to the other party is converted by this data conversion circuit to perform data communication.

[Problems to be Solved by the Invention] In the conventional data communication system described above, a data conversion circuit is individually installed in the electronic exchange for each data terminal device with which data is to be communicated. There was a problem in that the scale of electronic exchanges became larger and more expensive.

[Means for Solving the Problems] In order to solve such problems, the data communication method of the present invention is a data communication method specified among various conversion methods for converting data from a data terminal device to a data communication speed of 64 kbps. A data conversion means for converting from one conversion method to another specific conversion method, and a data conversion means provided between a time division switch and a plurality of data conversion means in an electronic exchange, and a channel of this time division switch and a plurality of data conversion means. and time division switch interface means for preselecting and fixedly connecting.

Data from the data terminal device converted to a data communication rate of 4 kbps arrives at the time division switch interface means via the time division switch. Then, this data is converted by a data conversion means fixedly selected in advance from among the plurality of data conversion means.

[Example] Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the data communication system of the present invention. In the figure, 4 is a data conversion device for data communication, 41 is a time division switch interface circuit, and 42 is a data conversion circuit (data conversion means).

Next, FIGS. 2 and 3 are relay system diagrams to which the data communication system of the present invention is applied. In FIGS. 2 and 3, parts equivalent to those in the block diagram of FIG. 1 are given the same reference numerals, and their explanations will be omitted. 2 and 3, 3 is a time division switch, 5 is a digital trunk trunk circuit, and 10.1
1 is a data terminal device, and 20.21 is a data terminal interface circuit. The data conversion circuit 4 for data communication is provided integrally within the electronic exchange, and is shared when data terminal devices 10 and 11 housed in the electronic exchange perform data communication.

Each data conversion circuit 42 in this data conversion device 4 for data communication is fixedly connected to a predetermined channel of the time division switch 3 by a time division switch interface circuit 41. That is, each data conversion circuit is connected to a predetermined line or channel of the data terminal equipment 10, 11 without being controlled by a central control unit (not shown) in the electronic exchange.

Next, the operation of the data communication system configured as above will be explained. The data from the data terminal equipment 10.11 is
Each of these data arrives at the data terminal interface circuit 20.21 connected to this data terminal device IO211, and each data terminal interface circuit 20.21 inputs this data and converts it to 64 kbp using its own conversion method.
Convert to a data rate of s. There are various conversion methods for data conversion by this data terminal interface circuit 20.21, such as a rate adaptation method during data communication defined by ISDN,
That is, CCITT Recommendation V.

There are two data rate conversion schemes: V.110 and V.120. In addition to the above conversion methods, each device and each system has its own conversion method.

The data conversion device 4 for data communication converts data based on a specific conversion method among the various speed conversion methods described above into data based on another specific conversion method. That is, for example, data from the data terminal interface circuit 20 converted to 64 kbps using a specific conversion method is fixedly connected to the time division switch interface circuit 41 connected thereto via the time division switch 3. The data is received by the data conversion circuit 42, converted into data according to another specific data conversion method, and sent out again to the data terminal interface circuit 21 via the time division switch 3.

The relay system diagram in FIG. 2 shows data terminal equipment 10.
11 is an example in which data communication is performed with a data terminal device (not shown) of the opposing team via the digital trunk line trunk circuit 5. Data from the connected data terminal device 10 is directly transmitted to the time division switch 3 without going through this data communication data conversion device 4.
is sent to the digital trunk trunk circuit 5 via
The digital trunk trunk circuit 5 transmits this data to the opposing station for data communication. In addition, data from the data terminal device of the game is also transferred to the data converter 4 for data communication.
The data is directly transmitted to the data terminal device 10 via the time division switch 3 and the data terminal interface circuit 20 without going through the data terminal.

Further, data from the data terminal device 11 connected to the data terminal device 21 having a data conversion method different from the data conversion method of the game is sent to the data communication data conversion device 4 via the time division switch 3. The data is converted and sent to the digital trunk trunk circuit 5, and as a result, the converted data is sent to the data terminal equipment of the opposing team. Then, data from the data terminal device of the opponent is similarly converted by the data conversion device 4 for data communication, and transmitted to the data terminal device 11 via the time division switch 3 and the data terminal interface circuit 21.

In this example, the data conversion device 4 for data communication includes:
The channels of the data terminal device (1) and the digital trunk trunk circuit 5 in the time division switch 3 are connected in advance, and the channels of the data terminal device 10 and the digital trunk trunk circuit 5 are not connected.

In addition, in the case of FIG. 3, data communication is performed within the own station, but the data conversion method of the data terminal interface circuit 20 connected to the data terminal device 10 is If the data conversion method is the same as that of the terminal interface circuit 21, the data terminal device 1 can be directly converted without using a data conversion device for data communication.
Data communication is performed between 0 and the data terminal device 11,
If both data conversion methods are not the same, the data from the data terminal device 10 is converted by the data communication data conversion device 4 and sent to the data terminal device (1.
Data from the data terminal device 11 is also converted by the data conversion device 4 for data communication and transmitted to the data terminal device 10.

[Effects of the Invention] As explained above, the data communication system of the present invention integrates a plurality of data conversion means and a time division switch interface means in an electronic exchange, and performs data communication between different data conversion systems. Therefore, it is possible to downsize the electronic exchange and reduce costs.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the data communication system of the present invention, and FIGS. 2 and 3 are relay system diagrams to which this data communication system is applied. 3... Time division switch, 4... Data converter for data communication, 5... Digital trunk trunk circuit, 10.11... Data terminal device, 20.21...
...Data terminal interface circuit, 41...
time division switch interface circuit, 42--data conversion circuit;

Claims (1)

[Claims] Among various conversion methods for converting data from a data terminal device to a data communication speed of 64 kbps in a private digital electronic exchange that provides data communication services including ISDN services via a time division switch. a plurality of data conversion means for converting from a specific conversion method to another specific conversion method; and a plurality of data conversion means provided between the time division switch and the plurality of data conversion means, the channel of the time division switch and the plurality of data conversion means a plurality of data conversion means and a time division switch interface means are integrally provided in the electronic exchange, and data communication between different data conversion methods is provided. A data communication method characterized by: