JP2013165316A - Transmission device, transmission system, and transmission method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transmission device capable of implementing a system for enabling multi-point connection by using one digital line of a TCM transmission method, without introducing a new device.SOLUTION: Line termination interface conversion means 83 is connected to network termination interface conversion means 81 of another transmission device, and mutually converts data transmitted with the other transmission device and data in each channel received from the network termination interface conversion means 81. Transmission data selection means 84 selects data to be transmitted to the other device according to predetermined setting, from data transmitted from a communication terminal through V24 interface conversion means 82, data transmitted from a communication terminal connected to the other transmission device through the line termination interface conversion means 83, and data transmitted from a communication terminal which is any of the communication terminals and outputs a predetermined signal.

Description

  The present invention relates to a transmission apparatus, a transmission system, and a transmission method for transmitting data via a digital line using a time division direction control method (hereinafter referred to as a TCM (Time Compression Multiplexing) method).

  Patent Document 1 describes a time-division direction control transmission device that realizes a transmission system that allows two terminals to be connected using one digital line based on the TCM transmission method. The transmission device described in Patent Document 1 selects either B1 channel data or B2 channel data transmitted from a digital line using the TCM method. Then, the transmission apparatus described in Patent Document 1 transmits the data of the selected channel to V.P. The data is converted into data for 24 interfaces and transmitted to the communication terminal, and the data of the selected channel is reconstructed into frame format data on the line termination side.

JP 2010-273174 A

  Generally, in a transmission apparatus that is connected to a digital dedicated line (hereinafter referred to as an SD line) using the TCM method and terminates the TCM method, the TCM method is required due to the characteristics of the interface based on the TCM method (hereinafter referred to as TCM_INF). An NT (Network Termination) interface (network termination interface; hereinafter referred to as NT_INF) and an LT (Line Termination) interface (line termination interface; hereinafter referred to as LT_INF) are basically one-to-one. Connected with. In the SD line, NT_INF corresponds to DSU (Digital Service Unit), and LT_INF corresponds to OCU (Office Channel Unit).

  Therefore, when a new data terminal in the same facility is to be additionally connected using the same transmission apparatus, a new contract is made for the SD line or another transmission apparatus having an S / T point interface instead of TCM_INF. Must be prepared and connected to the bus on the S / T point of the transmission apparatus. In either case, there is a problem in that the communication system cannot be easily expanded, resulting in a great expense.

  For example, in a communication system constructed using an analog modem, it is assumed that the analog modem is replaced with a transmission device that terminates the TCM system. Unlike analog modems, transmission devices that terminate the TCM system have a limitation that multipoint connection or bus connection is not possible, so it is necessary to add equipment or add contract lines.

  FIG. 17 is an explanatory diagram illustrating an example of a system that performs multipoint connection using a general transmission apparatus. In the example shown in FIG. 17, communication is performed from terminal A arranged in the center station to terminals B, C, D, E arranged in the branch office area via the SD line. The terminal A of the center station is connected to the transmission device 91 and performs communication using the TCM method. On the other hand, since a plurality of terminals B, C, D, and E exist in the branch office area, the transmission device 92 is connected to the plurality of terminals B, C, D, and E via the data branch device 93. When performing such multipoint connection, a new device such as the data branch device illustrated in FIG. 17 must be introduced.

  By using the transmission device described in Patent Document 1, it is possible to connect the bus with a transmission device that terminates the TCM system. However, in the transmission apparatus described in Patent Document 1, the opposite terminal is intended for one-to-one connection, and for example, multipoint connection for communication between a center station terminal and a plurality of terminals is considered. Not. For this reason, when using a transmission apparatus that terminates the TCM system based on a one-to-one connection, it is desirable to easily realize multipoint connection over an SD line without introducing a new apparatus.

  Accordingly, the present invention provides a transmission apparatus, a transmission system, and a transmission method capable of realizing a system that enables multipoint connection using one digital line based on the TCM transmission method without introducing a new apparatus. With the goal.

  The transmission apparatus according to the present invention is a transmission apparatus that transmits data to a connected apparatus, and is connected to a digital line using a time division direction control method, and communication data transmitted through the digital line and data of each channel. A network termination interface converting means for mutually converting V. Connected to a communication terminal having 24 interfaces, and V24. V24 interface conversion means for mutually converting the data of each channel received from the network termination interface conversion means and the data used in the communication terminal based on the interface specifications, and the network termination interface conversion means in other transmission devices Line termination interface conversion means for mutually converting data transmitted between the connected and other transmission apparatuses and data of each channel received from the network termination interface conversion means, and V24 interface conversion means from the communication terminal. Data transmitted via a communication terminal connected to another transmission device, data transmitted via line termination interface conversion means, and a communication terminal that outputs a predetermined signal among any of the communication terminals. Other data in accordance with the preset settings. And a transmission data selecting means for selecting data to be transmitted, the network termination interface conversion means, and transmits the transmission data selecting means has selected data to other devices.

  The transmission system according to the present invention comprises a plurality of transmission devices for transmitting data to connected devices, and each transmission device is connected to a digital line using a time division direction control method, and communication data transmitted through the digital line. And network termination interface conversion means for mutually converting the data of each channel. Connected to a communication terminal having 24 interfaces, and V24. V24 interface conversion means for mutually converting the data of each channel received from the network termination interface conversion means and the data used in the communication terminal based on the interface specifications, and the network termination interface conversion means in other transmission devices Line termination interface conversion means for mutually converting data transmitted between the connected and other transmission apparatuses and data of each channel received from the network termination interface conversion means, and V24 interface conversion means from the communication terminal. Data transmitted via a communication terminal connected to another transmission device, data transmitted via line termination interface conversion means, and a communication terminal that outputs a predetermined signal among any of the communication terminals. Other data in accordance with the preset settings. And a transmission data selecting means for selecting data to be transmitted, the network termination interface conversion means, and transmits the transmission data selecting means has selected data to other devices.

  In the transmission method according to the present invention, the first transmission device converts communication data transmitted through the digital line using the time division direction control method into data of each channel, and the first transmission device is V24. Based on the interface specifications, the data of each channel is changed to V. The data is converted into data used in the communication terminal connected to the first transmission device having 24 interfaces, the data received from the communication terminal is converted into data of each channel, and the first transmission device converts the data of each channel. Is converted into data transmitted to and from other transmission apparatuses connected to the first transmission apparatus, data received from the other transmission apparatuses is converted into data of each channel, and the first transmission apparatus Is selected from data transmitted from a communication terminal, data transmitted from a communication terminal connected to another transmission apparatus, and data transmitted from a communication terminal that outputs a predetermined signal among any of the communication terminals. According to a predetermined setting, data to be transmitted to another device is selected, and the first transmission device transmits the selected data to the other device.

  According to the present invention, it is possible to realize a system that enables multipoint connection by using one digital line according to the TCM transmission method without introducing a new device.

It is a block diagram which shows one Embodiment of the transmission apparatus by this invention. 6 is an explanatory diagram illustrating an example of a reception data selector 4. FIG. 6 is an explanatory diagram showing another example of the reception data selector 4. FIG. It is explanatory drawing which shows the example which added RS information to transmission data. It is explanatory drawing which shows the example of B1 transmission data selector 5. FIG. It is explanatory drawing which shows the other example of B1 transmission data selector 5. FIG. It is explanatory drawing which shows the other example of B1 transmission data selector 5. FIG. It is explanatory drawing which shows the example of B2 transmission data selector 6. FIG. It is explanatory drawing which shows the other example of B2 transmission data selector 6. FIG. It is explanatory drawing which shows the example of the transmission system comprised using a transmission apparatus. It is explanatory drawing which shows the example of the data transmitted with the transmission system illustrated in FIG. It is explanatory drawing which shows the other example of the transmission system comprised using a transmission apparatus. It is explanatory drawing which shows the further another example of the transmission system comprised using a transmission apparatus. It is explanatory drawing which shows the example of the data transmitted with the transmission system illustrated in FIG. It is a block diagram which shows the outline | summary of the transmission apparatus by this invention. It is a block diagram which shows the outline | summary of the transmission system by this invention. It is explanatory drawing which shows the example of the system which performs multipoint connection using a general transmission apparatus.

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

Embodiment 1. FIG.
FIG. 1 is a block diagram showing an embodiment of a transmission apparatus according to the present invention. The transmission apparatus 20 according to the present embodiment terminates the TCM method and is a V.264 standard defined by ITU-T (International Telecommunication Union Telecommunication Standardization Sector). It is connected to a communication terminal 21 having 24 interfaces. V. 24 interface is denoted as V24_INF; The communication terminal 21 having 24 interfaces is referred to as a V24_INF terminal 21. A signal indicating the presence or absence of a connection request transmitted from the communication terminal to the data transmission source is referred to as RS information. Here, when a value indicating “ON” is set in the RS information, the RS information indicates that a connection is requested. When a value indicating “off” is set in the RS information, the RS information indicates that connection is not requested.

  The transmission apparatus 20 of this embodiment includes an NT_INF1, an NT_INF conversion unit 2, a data distribution setting unit 3, a reception data selector 4, a B1 transmission data selector 5, a B2 transmission data selector 6, and a selector control unit 7. RS information detector 8, V24_INF converter 9, LT_INF converter 10, V24_INF11, and LT_INF12.

  NT_INF1 is connected to a digital line using the TCM system, and performs termination processing for signals transmitted by the TCM system in the NT side frame format.

The NT_INF conversion unit 2 extracts data used in the communication terminal from the NT side frame format. Specifically, the NT_INF conversion unit 2 extracts B1 channel data (hereinafter referred to as B1 data) and B2 channel data (hereinafter referred to as B2 data) from communication data in the NT side frame format. . The NT_INF conversion unit 2
Assemble the NT side frame format using B1 data and B2 data. As described above, the NT_INF conversion unit 2 mutually converts the communication data in the NT side frame format and the data of each channel used in the communication terminal.

  The NT_INF conversion unit 2 transmits the data of each channel converted from the communication data in the NT side frame format to the reception data selector 4 and the LT_INF conversion unit 10. The NT_INF conversion unit 2 transmits communication data obtained by converting the data of each channel received from the B1 transmission data selector 5 and the B2 transmission data selector 6 described later to the NT_INF1.

  The data distribution setting unit 3 defines a data selection method by a reception data selector 4, a B1 transmission data selector 5, and a B2 transmission data selector 6, which will be described later. The setting contents of the data distribution setting unit 3 will be described later.

  The reception data selector 4 selects either B1 data or B2 data converted from the communication data by the NT_INF conversion unit 2 and transmits the selected data to the V24_INF conversion unit 9. Note that whether to select B1 data or B2 data is preset in the data distribution setting unit 3.

  2 and 3 are explanatory diagrams showing examples of the reception data selector 4. The reception data selector 4 has a terminal 31 for receiving the B1 data converted by the NT_INF conversion unit 2 and a terminal 32 for receiving the B2 data. Further, the reception data selector 4 is alternatively connected to one of these terminals. A terminal 33 is provided. The other end of the terminal 33 is connected to the V24_INF conversion unit 9.

  In the data distribution setting unit 3, the reception data selector 4 is set from two types: (1) “select B1” and (2) “select B2”. When “select B1” is set, the terminal 33 is connected to the terminal 31 as shown in the example of FIG. On the other hand, when “select B2” is set, the terminal 33 is connected to the terminal 32 as shown in the example of FIG.

  The V24_INF conversion unit 9 receives the V.V. The B1 data or B2 data received from the reception data selector 4 is converted into data used by the V24_INF terminal 21 based on the 24 interface specification. Further, the V24_INF conversion unit 9 converts the data received from the V24_INF terminal 21 into data of each channel (B1 data or B2 data). That is, the V24_INF conversion unit 9 mutually converts the data of each channel and the data used in the V24_INF terminal 21.

  Specifically, the V24_INF conversion unit 9 converts the data speed of the B1 data or B2 data received from the reception data selector 4 to a data speed required by the V24_INF terminal 21. The V24_INF conversion unit 9 converts the speed of data received from the V24_INF terminal 21 to the data speed of B1 data or B2 data.

  Further, the V24_INF conversion unit 9 controls control signals used in the V24_INF terminal 21 such as CS (transmission possible), CD (data channel reception carrier detection), and the like. Further, the V24_INF conversion unit 9 transmits the RS information received from the V24_INF terminal 21 to the RS information detection unit 8 described later.

  FIG. 4 is an explanatory diagram illustrating an example in which RS information is added to transmission data. As illustrated in the example of FIG. 4, the V24_INF conversion unit 9 may transmit data obtained by adding RS information to data transmitted from the V24_INF terminal 21 as B1 data or B2 data.

  V24_INF11 connects the transmission apparatus 20 and the V24_INF terminal 21. Specifically, V24_INF11 converts the data received by NT_INF1 into a voltage level required by the communication terminal in order to connect transmission apparatus 20 and V24_INF terminal 21.

  The LT_INF conversion unit 10 converts the B1 data and B2 data received from the reception data selector 4 into data having a format to be transmitted to another transmission apparatus. Further, the LT_INF conversion unit 10 converts data in a format received from another transmission apparatus into data (B1 data or B2 data) of each channel. That is, the LT_INF conversion unit 10 mutually converts the data of the format transmitted between other transmission apparatuses and the data of each channel.

  Specifically, the LT_INF conversion unit 10 assembles the LT side frame format using the B1 data and the B2 data. Further, the LT_INF conversion unit 10 extracts B1 data and B2 data from communication data in the LT side frame format.

  The LT_INF conversion unit 10 transmits communication data obtained by converting the data of each channel received from the NT_INF conversion unit 2 to the LT_INF 12. Further, the LT_INF conversion unit 10 transmits the data of each channel converted from the communication data in the LT side frame format to the B1 transmission data selector 5, the B2 transmission data selector 6, and the RS information detection unit 8. In the example illustrated in FIG. 1, the LT_INF conversion unit 10 transmits B1 data to the B1 transmission data selector 5 and the RS information detection unit 8 and transmits B2 data to the B2 transmission data selector 6.

  The LT_INF 12 performs termination processing for signals transmitted by the TCM method in the LT side frame format. In this embodiment, LT_INF12 in the first transmission device (transmission device 20) and NT_INF1 in the second transmission device (not shown) are connected. The LT_INF 12 in the first transmission device performs a termination process on a signal transmitted from the NT_INF 1 in the second transmission device to the first transmission device, and converts the received communication data into the LT_INF conversion unit 10 in the first transmission device. Notify In the following description, a line connecting each transmission apparatus is referred to as a local line.

  The RS information detection unit 8 detects RS information included in signals received from the V24_INF conversion unit 9 and the LT_INF conversion unit 10. Specifically, the RS information detection unit 8 notifies the selector control unit 7 of information for specifying the conversion unit that has transmitted the RS information indicating the connection request.

  The selector control unit 7 controls data transmitted by the B1 transmission data selector 5 based on the information received from the RS information detection unit 8. Whether the selector control unit 7 controls the B1 transmission data selector 5 is determined based on the setting of the data distribution setting unit 3.

  The B1 transmission data selector 5 selects either the data received from the V24_INF conversion unit 9 (that is, the data transmitted by the V24_INF terminal 21) or the B1 data received from the LT_INF conversion unit 10, and transmits the selected data to the NT_INF conversion unit 2. . Note that whether to select data received from the V24_INF conversion unit 9 or B1 data is preset in the data distribution setting unit 3.

  FIGS. 5-7 is explanatory drawing which shows the example of B1 transmission data selector 5. FIG. The B1 transmission data selector 5 has a terminal 34 for receiving data from the V24_INF terminal 21 converted by the V24_INF conversion unit 9 and a terminal 35 for receiving B1 data converted by the LT_INF conversion unit 10, and these A terminal 36 is selectively connected to one of the terminals. The other end of the terminal 36 is also connected to the NT_INF conversion unit 2.

  Further, the B1 transmission data selector 5 has a terminal 37 for receiving a control signal from the selector control unit 7, and the connection destination of the terminal 36 is determined based on this control signal. Whether or not to use this control signal is based on the setting of the data distribution setting unit 3.

  In the data distribution setting unit 3, as the setting of the B1 transmission data selector 5, (3) “select data from the V24_INF conversion unit 9”, (4) “select data from the LT_INF conversion unit 10”, ( 5) It is set from three types of “by RS information”.

  When “select data from V24_INF conversion unit 9” is set, the terminal 36 is connected to the terminal 34 as shown in the example of FIG. When “select data from LT_INF conversion unit 10” is set, terminal 36 is connected to terminal 35 as shown in the example of FIG.

  On the other hand, when “by RS information” is set, a terminal to be connected is determined based on the RS information detected by the RS information detection unit 8. Specifically, the RS information detection unit 8 detects which one of the RS information included in the data from the V24_INF conversion unit 9 and the RS information included in the data from the LT_INF conversion unit 10 indicates “ON”. . Then, the selector control unit 7 is notified of which data contains the RS information indicating “ON”.

  The B1 transmission data selector 5 selects the data on the side where the RS information is “on” by the control of the selector control unit 7 that has received that the RS information indicates “on” by the RS information detection unit 8, Transmit to the NT_INF conversion unit 2.

  Here, as shown in the example of FIG. 7, it is assumed that RS information indicating “OFF” is transmitted from the V24_INF conversion unit 9 and RS information indicating “ON” is transmitted from the LT_INF conversion unit 10. To do. In this case, the selector control unit 7 controls the B1 transmission data selector 5 based on the detection content of the RS information detection unit 8. Specifically, since the terminal 36 is connected to the terminal 35 based on the control of the selector control unit 7, the B1 transmission data selector 5 selects data from the LT_INF conversion unit 10.

  Further, the B2 transmission data selector 6 selects either the data received from the V24_INF conversion unit 9 (that is, the data transmitted from the V24_INF terminal 21) or the B2 data received from the LT_INF conversion unit 10, and sends it to the NT_INF conversion unit 2. Send. Note that whether to select data received from the V24_INF conversion unit 9 or B2 data is preset in the data distribution setting unit 3.

  8 and 9 are explanatory diagrams showing examples of the B2 transmission data selector 6. FIG. The B2 transmission data selector 6 has a terminal 38 for receiving data from the V24_INF terminal 21 converted by the V24_INF conversion unit 9 and a terminal 39 for receiving B2 data converted by the LT_INF conversion unit 10, and these A terminal 40 is alternatively connected to one of the terminals. The other end of the terminal 40 is connected to the NT_INF conversion unit 2.

  The data distribution setting unit 3 has two types of settings for the B2 transmission data selector 6: (6) “select data from the V24_INF conversion unit 9” and (7) “select data from the LT_INF conversion unit 10”. Set from among When “select data from V24_INF conversion unit 9” is set, terminal 40 is connected to terminal 38 as shown in the example of FIG. When “select data from LT_INF conversion unit 10” is set, terminal 40 is connected to terminal 39 as shown in the example of FIG.

  In this way, the B1 transmission data selector 5, the B2 transmission data selector 6, the selector control unit 7, and the RS information detection unit 8 transmit the data from the V24_INF terminal 21 connected to the transmission apparatus 20 via the V24_INF conversion unit 9. Data to be transmitted from the V24_INF terminal 21 that outputs the connection request signal is selected from among the data to be transmitted and the data transmitted from the V24_INF terminal 21 connected to another transmission apparatus via the LT_INF conversion unit 10. Become.

  As described above, according to the present embodiment, the NT_INF conversion unit 2 converts communication data transmitted through the SD line into B1 data and B2 data. The V24_INF conversion unit 9 converts B1 data or B2 data into data used in the V24_INF terminal 21 connected to the transmission apparatus 20 based on the V24 interface specification, and converts the data received from the V24_INF terminal 21 into each channel. Convert to data. Further, the LT_INF conversion unit 10 converts the B1 data and the B2 data into data transmitted to and from other transmission apparatuses connected to the transmission apparatus 20, and converts the data received from the other transmission apparatuses to Convert to channel data.

  Further, the B1 transmission data selector 5, the B2 transmission data selector 6, the selector control unit 7, and the RS information detection unit 8 are connected to data transmitted from the V24_INF terminal 21 connected to the transmission device 20 and to other transmission devices. Data distribution setting among the data transmitted from the V24_INF terminal 21 and the data transmitted from the V24_INF terminal 21 that outputs a signal in which the RS information is set to “ON” among any of the V24_INF terminals 21 described above. The data to be transmitted is selected according to the setting of section 3. Then, the NT_INF1 and the NT_INF conversion unit 2 transmit the selected data to another device (for example, a terminal that has requested connection, another transmission device, or the like).

  With the configuration as described above, it is possible to realize a system that enables multipoint connection using one digital line based on the TCM transmission method without introducing a new device.

  That is, the transmission apparatus of this embodiment has NT_INF (specifically, DSU function) connected to the SD line and LT_INF (specifically, OCU function) so that it can be connected to another same apparatus by NT_INF. It has. Furthermore, the transmission apparatus according to the present embodiment has a function of selecting which multi-connected terminal data is to be transmitted by detecting a connection request signal (a signal in which “ON” is set in the RS information). ing. Therefore, a transmission system capable of multipoint connection can be easily and inexpensively constructed using a transmission apparatus that terminates the TCM system.

  Hereinafter, the present invention will be described with reference to specific examples, but the scope of the present invention is not limited to the contents described below. FIG. 10 is an explanatory diagram illustrating an example of a transmission system configured using the transmission apparatus of the embodiment. In the first embodiment, a case will be described in which a transmission system capable of multipoint connection is configured using a transmission apparatus that terminates the TCM system.

  The transmission system illustrated in FIG. 10 includes transmission apparatuses 51 to 55 having the same configuration as the transmission apparatus 20 illustrated in FIG. The transmission device 51 and the transmission device 52 are connected via an SD line. Furthermore, LT_INF12 of the transmission apparatus 52 is connected to NT_INF1 of the transmission apparatus 53 via a local line. Note that the transmission device 53 and the transmission device 54, and the transmission device 54 and the transmission device 55 are also connected via a local line under the same conditions.

  The terminal A on the center station side is connected to V24_INF11 of the transmission apparatus 51. The terminals B to E on the branch office area side are connected to the transmission devices 52 to 55 in order to communicate with the terminal A on the center station side connected to the transmission device 51.

  In this transmission system, in the data distribution setting unit 3 of the transmission apparatuses 51 to 55, (1) “B1 is selected” is set as the setting of the reception data selector 4, and (5) is set as the setting of the B1 transmission data selector 5. ) “By RS information” is set.

  FIG. 11 is an explanatory diagram illustrating an example of data transmitted by the transmission system illustrated in FIG. 10. First, the terminal A sets “on” in the RS information in order to transmit data to the terminals B to E on the branch area side. Since the transmission device 51 is set with (5) “RS information” as the setting of the B1 transmission data selector 4, the terminal A transmits from the transmission device 1 via the SD line using the B1 channel. Data is transmitted to the device 52.

  Since (1) “Select B1” is set as the setting of the reception data selector 4 in the transmission device 52, the reception data selector 4 of the transmission device 52 selects B1 data. Therefore, the terminal B connected to V24_INF11 of the transmission apparatus 52 receives B1 data as transmission data of the terminal A. Further, the B1 and B2 data received from the line by the transmission device 52 is transmitted to the transmission device 3 as it is by the LT_INF 12 of the transmission device 52.

  The reception data selector 4 of the transmission device 53 also selects B1 data. The terminal C connected to V24_INF11 of the transmission apparatus 53 also receives B1 data as transmission data of the terminal A. Similarly, terminal D and terminal E can also receive B1 data as transmission data of terminal A.

  Further, in this embodiment, it is assumed that the terminal A makes a reply request to the terminal A with respect to the terminal E. As described above, all of the terminals B to E on the branch area side receive the reply request data transmitted from the terminal A to the terminal E. However, since the terminals B to D other than the terminal E recognize that their own terminal does not need to respond to the reply request from the terminal A, they do not return data. That is, “ON” is not set in the RS information of the terminals B to E.

  On the other hand, since the terminal E recognizes that its own terminal needs to respond to the reply request of the terminal A, the terminal E replies with data. That is, “ON” is set in the RS information of the terminal E.

  The B1 transmission data selector 5 of the transmission device 55 to which the terminal E is connected detects that “on” is set in the RS information transmitted from the terminal E by the setting of (5) “by RS information”. To do. The B1 transmission data selector 5 of the transmission device 55 transmits the data from the V24_INF conversion unit 9 (that is, data transmitted from the terminal E) to the NT_INF conversion unit 2 of the transmission device 55 as B1 data. Therefore, the data of terminal E is transmitted from NT_INF1 of the transmission device 55 to the transmission device 54.

  In the B1 data from the transmission device 55 received by the LT_INF 12 of the transmission device 54, “ON” is set in the RS information. In the transmission device 54 that detects that the RS information is “ON”, the B1 transmission data selector 5 selects the B1 data from the LT_INF conversion unit 10 and transmits it to the NT_INF conversion unit 2 of the transmission device 54. Therefore, the selected data is transmitted to the transmission device 53.

  Similarly, in the transmission device 53 and the transmission device 52, data on the LT_INF 12 side in which the RS information is set to “on” is selected. As a result, the data of terminal E is transmitted to terminal A via transmission device 55 → transmission device 54 → transmission device 53 → transmission device 52 → SD line → transmission device 51.

  In the present embodiment, the case where the terminal A makes a reply request to the terminal A to the terminal E has been described. By using the same method, the terminal A on the center station side can communicate with all terminals connected to the branch area side. That is, by using the transmission apparatus of the above embodiment that terminates the TCM system, multipoint connection via an SD line is possible.

  As illustrated in FIGS. 10 and 11, multipoint connection can be easily performed by using the transmission apparatus of the above embodiment. Therefore, it is not necessary to newly introduce equipment such as a data branch device as in the case of using the general transmission device shown in FIG. Further, unlike the case of introducing a data branch device, the device can be introduced according to the number of terminals to be multi-connected, so that the introduction cost can be suppressed.

  When the general transmission apparatus and the data branch apparatus shown in FIG. 17 are used for connection, the maximum extension distance is generally about 15 m in the electrical characteristics of V24, so the distance to the V24_INF terminal is limited. Will be.

  On the other hand, when a transmission system is constructed using the transmission apparatus according to the present invention, it can be extended to a maximum of about 9 km due to the transmission characteristics of the TCM system, so that a more flexible transmission system can be constructed.

  FIG. 12 is an explanatory diagram illustrating another example of a transmission system configured using the transmission apparatus of the above embodiment. In the example shown in FIG. 12, the transmission device 52 and the transmission device 53 are separated by 15 m or more. By using the transmission apparatus of the above embodiment, for example, the terminals in the branch area side are not concentrated in a place such as a machine room, but are scattered in a wide range such as a factory as shown in FIG. This is particularly effective when

  FIG. 13 is an explanatory diagram illustrating still another example of a transmission system configured using the transmission apparatus according to the embodiment. In the second embodiment, a case will be described in which a transmission system capable of bus connection is configured using a transmission apparatus that terminates the TCM system. Specifically, it is assumed that the terminal A and the terminal C transmit / receive data to / from each other, and the end B and the terminal D transmit / receive data to / from each other. In this case, the bus connection becomes possible by the setting of the data distribution setting unit 3.

  In the data distribution setting unit 3 of the transmission device 61 and the transmission device 63, (1) “Select B1” is set as the setting of the reception data selector 4, and (3) “V24_INF conversion” is set as the setting of the B1 transmission data selector 5. "Select data of unit 9" is set, and (7) "Select data of LT_INF conversion unit 10" is set as the setting of the B2 transmission data selector 6.

  In the data distribution setting unit 3 of the transmission device 62 and the transmission device 64, (2) “Select B2” is set as the setting of the reception data selector 4, and (3) “3” is set as the setting of the B1 transmission data selector 5. “Select data of V24_INF conversion unit 9” is set, and (6) “Select data of V24_INF conversion unit 9” is set as the setting of the B2 transmission data selector 6.

  FIG. 14 is an explanatory diagram illustrating an example of data transmitted by the transmission system illustrated in FIG. By performing the above setting, data transmitted by the terminal A is received by the terminal C as B1 data. Similarly, data transmitted by terminal C is also received by terminal A as B1 data. Further, data transmitted by the terminal B is received by the terminal D as B2 data. Similarly, data transmitted by the terminal D is also received by the terminal B as B2 data. As described above, the bus connection can be performed by the setting of the data distribution setting unit 3.

  Next, the outline of the present invention will be described. FIG. 15 is a block diagram showing an outline of a transmission apparatus according to the present invention. The transmission apparatus according to the present invention is a transmission apparatus (for example, the transmission apparatus 20) for transmitting data to a connected apparatus, and is a digital line (for example, an SD line, a local area) using a time division direction control method (TCM method). Network termination interface conversion means 81 (for example, NT_INF1 and NT_INF conversion unit 2) that mutually convert communication data transmitted through the digital line and data of each channel (for example, B1 data and B2 data). ) And V. Connected to a communication terminal (for example, V24_INF terminal 21) having 24 interfaces, V24 interface conversion means 82 (for example, V24_INF conversion unit 9 and V24_INF11) for mutually converting the data of each channel received from network termination interface conversion means 81 and the data used in the communication terminal based on the interface definition A line which is connected to the network termination interface conversion means 81 in another transmission apparatus and which mutually converts data transmitted between the other transmission apparatuses and data of each channel received from the network termination interface conversion means 81 Termination interface conversion means 83 (LT_INF conversion unit 10 and LT_INF12), data transmitted from the communication terminal via V24 interface conversion means 82, and line termination interface conversion means 83 from a communication terminal connected to another transmission apparatus. Sent via And a predetermined setting (e.g., data transmitted from a communication terminal that outputs a predetermined signal (e.g., a signal in which "ON" is set in the RS information)) among these communication terminals. The transmission data selection means 84 (for example, the B1 transmission data selector 5, the B2 transmission data selector 6, the selector control unit 7, and the RS information detection) that selects data to be transmitted to another device in accordance with the setting of the data distribution setting unit 3) Part 8).

  The network termination interface conversion unit 81 transmits the data selected by the transmission data selection unit 84 to another device (for example, another transmission device or a connection request terminal).

  With such a configuration, it is possible to realize a system that enables multipoint connection using one digital line based on the TCM transmission method without introducing a new device.

  The transmission apparatus according to the present invention is preliminarily determined (for example, set in the data distribution setting unit 3) among the data of each channel converted by the network termination interface conversion means 81 from the communication data transmitted through the digital line. In addition, reception data selection means (for example, reception data selector 4) for selecting channel data may be provided. Then, the V24 interface conversion means 82 is V24. Based on the interface definition, the data of the channel selected by the reception data selection means may be converted into data used in the communication terminal.

  With such a configuration, it is possible to realize a system that enables bus connection using one digital line based on the TCM transmission method without introducing a new device.

  Specifically, the network end interface conversion unit 81 may extract B1 channel data and B2 channel data from communication data transmitted through a digital line. The line termination interface conversion unit 83 may convert the B1 channel data and the B2 channel data received from the network termination interface conversion unit 81 into data to be transmitted to another transmission apparatus. Moreover, the transmission data selection means 84 may select the data transmitted from the communication terminal which outputs a connection request signal.

  Further, the line termination interface conversion unit 83 may convert the data received by the network termination interface conversion unit 81 into the data speed and voltage level required by the communication terminal.

  FIG. 16 is a block diagram showing an outline of a transmission system according to the present invention. The transmission system according to the present invention includes a plurality of transmission apparatuses 89 (for example, transmission apparatuses 20) that transmit data to connected apparatuses.

  Each transmission device 89 includes network termination interface conversion means 81, V24 interface conversion means 82, line termination interface conversion means 83, and transmission data selection means 84. Note that the contents of these means are the same as the contents of the means included in the transmission apparatus illustrated in FIG.

  The present invention is preferably applied to a transmission apparatus that transmits data via a digital line using the TCM method.

1 NT_INF (network termination interface)
2 NT_INF conversion unit 3 Data distribution setting unit 4 Reception data selector 5 B1 transmission data selector 6 B2 transmission data selector 7 Selector control unit 8 RS information detection unit 9 V24_INF conversion unit 10 LT_INF conversion unit 11 V24_INF (V.24 interface)
12 LT_INF (Line termination interface)
20, 51-55, 61-64 Transmission device 21 V24_INF terminal 31-40 terminal

Claims (9)

A transmission device for transmitting data to a connected device,
Network termination interface conversion means connected to the digital line using the time division direction control method and converting the communication data transmitted through the digital line and the data of each channel to each other;
V. Connected to a communication terminal having a 24 interface, the V24. V24 interface conversion means for mutually converting the data of each channel received from the network termination interface conversion means and the data used in the communication terminal, based on interface specifications;
Line termination connected to network termination interface conversion means in another transmission apparatus and mutually converting data transmitted between the other transmission apparatuses and data of each channel received from the network termination interface conversion means Interface conversion means;
Data transmitted from the communication terminal via the V24 interface conversion means, data transmitted from the communication terminal connected to another transmission apparatus via the line termination interface conversion means, and any one of the communications Transmission data selection means for selecting data to be transmitted to other devices according to a predetermined setting from data transmitted from a communication terminal that outputs a predetermined signal among terminals,
The network terminal interface conversion means transmits the data selected by the transmission data selection means to another apparatus. Receiving data selection means for selecting data of a predetermined channel among data of each channel converted by network termination interface conversion means from communication data transmitted through a digital line,
The V24 interface conversion means is V24. The transmission apparatus according to claim 1, wherein the data of the channel selected by the reception data selection unit is converted into data used in a communication terminal based on interface specifications. The network termination interface conversion means extracts B1 channel data and B2 channel data from communication data transmitted over a digital line,
The line termination interface conversion means converts the B1 channel data and the B2 channel data received from the network termination interface conversion means into data to be transmitted to another transmission apparatus. Transmission equipment. The transmission apparatus according to any one of claims 1 to 3, wherein the transmission data selection unit selects data transmitted from a communication terminal that outputs a connection request signal. The transmission according to any one of claims 1 to 4, wherein the line termination interface conversion unit converts the data received by the network termination interface conversion unit into a data speed and a voltage level required by the communication terminal. apparatus. It has multiple transmission devices that transmit data to connected devices,
Each of the transmission devices is
Network termination interface conversion means connected to the digital line using the time division direction control method and converting the communication data transmitted through the digital line and the data of each channel to each other;
V. Connected to a communication terminal having a 24 interface, the V24. V24 interface conversion means for mutually converting the data of each channel received from the network termination interface conversion means and the data used in the communication terminal, based on interface specifications;
Line termination connected to network termination interface conversion means in another transmission apparatus and mutually converting data transmitted between the other transmission apparatuses and data of each channel received from the network termination interface conversion means Interface conversion means;
Data transmitted from the communication terminal via the V24 interface conversion means, data transmitted from the communication terminal connected to another transmission apparatus via the line termination interface conversion means, and any one of the communications Transmission data selection means for selecting data to be transmitted to another device according to a predetermined setting from data transmitted from a communication terminal that outputs a predetermined signal among terminals,
The network termination interface converting means transmits the data selected by the transmission data selecting means to another device. Including reception data selection means for selecting data of a predetermined channel among data of each channel converted by network termination interface conversion means from communication data transmitted through a digital line;
The V24 interface conversion means is V24. The transmission system according to claim 6, wherein the data of the channel selected by the reception data selection means is converted into data used in a communication terminal based on interface specifications. The first transmission device converts communication data transmitted through a digital line using a time division direction control method into data of each channel,
The first transmission device is V24. Based on the interface definition, the data of each channel is changed to V. Converting data to be used in a communication terminal connected to the first transmission apparatus having 24 interfaces, converting data received from the communication terminal into data of each channel,
The first transmission device converts the data of each channel into data transmitted to and from another transmission device connected to the first transmission device, and the data received from the other transmission device To the data of each channel,
Communication in which the first transmission device outputs data transmitted from the communication terminal, data transmitted from a communication terminal connected to the other transmission device, and a predetermined signal among any of the communication terminals. From the data sent from the terminal, select the data to be sent to other devices according to the predetermined settings,
The transmission method, wherein the first transmission device transmits the selected data to another device. Of the data of each channel converted from the communication data transmitted through the digital line, select the data of a predetermined channel,
V24. The transmission method according to claim 8, wherein the data of the selected channel is converted into data used by the communication terminal based on the interface definition.

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