JP3660373B2 - Multiplexing communication device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a multiplexed communication apparatus that performs multiplexed communication via a digital public line.
[0002]
[Prior art]
FIG. 5 shows an example of a data system communicated by a conventional time division multiplexing apparatus. In this system, multiplexed communication is performed for each block for each communication partner with the time division multiplexing apparatuses 106 and 106 ′. Is called. Each of the devices 106 and 106 ′ has one device control unit 101 and 101 ′ and a plurality of internal blocks (110, 111 and 112) and (110 ′, 111 ′ and 112 ′), and each of the internal blocks is ISDN. It has high-speed line interface / multiplexing units 102 and 102 ′, which are basic interfaces, bus control unit units 103 and 103 ′, and a plurality of terminal interface units 104 and 104 ′.
[0003]
The high-speed line interface / multiplexing units 102 and 102 ′ are connected via an ISDN public line (NET64) 109, and the bus control units 103 and 103 ′ and the terminal interface units 104 and 104 ′ in each internal block are for receiving. The multiplexed buses 107 and 107 ′ are connected to the multiplexed buses 108 and 108 ′ for transmission. The terminal interface units 104 and 104 ′ and the terminals 105 and 105 ′ are connected via interface cables 113 and 113 ′, respectively.
[0004]
In such a configuration, the time-division multiplexers 106 and 106 ′ on the transmission side send data from various terminals 105 and 105 ′ to the terminal interface units 104 and 104 ′ via the interface cables 113 and 113 ′, respectively. Capture, transmit from each terminal interface unit 104, 104 ′ to the bus control unit 103, 103 ′ via the multiplexed bus 108, 108 ′ for transmission, and perform bus connection in the bus control unit 103, 103 ′, Multiplexed by the high-speed line interface / multiplexing units 102 and 102 ′, and received by each internal block (110, 111, 112) and (110 ′, 111 ′, 112 ′) via each ISDN public line (NET64) 109 To the time division multiplexing apparatuses 106 ′ and 106.
[0005]
The time-division multiplexers 106 and 106 ′ on the receiving side receive the signals via the ISDN public line (NET64) 109 for each of the internal blocks (110, 111, 112) and (110 ′, 111 ′, 112 ′). The multiplexed data is decomposed into each data in the high-speed line interface / multiplexing units 102 and 102 ′, and each data is received by the bus control units 103 and 103 ′ via the multiplexed buses 107 and 107 ′ for reception. The data is distributed to the interface units 104 and 104 ′, and sent from the terminal interface units 104 and 104 ′ to the terminals 105 and 105 ′ via the interface cables 113 and 113 ′.
[0006]
[Problems to be solved by the invention]
However, in the conventional time division multiplexing communication apparatus, each high-speed line interface / multiplexing unit 102, 102 ′ is NET64 for each of the internal blocks (110, 111, 112), (110 ′, 111 ′, 112 ′). Since it is connected via the ISDN public line 109, when the data rate transmitted / received on the ISDN public line 109 of NET64 becomes 128 Kbps (B1ch, B2ch) or higher, a new NET64 ISDN public line 109 is connected and added. Or, if the ISDN public line 109 is changed to the ISDN public line (NET 1500) for each block and the high-speed line interface / multiplexing units 102 and 102 ′ are not changed to the ISDN primary group speed interface, it cannot be supported. There is a problem that the cost increases.
[0007]
An object of the present invention is to provide a multiplexed communication apparatus capable of increasing the data rate with an inexpensive configuration in view of the above-described conventional problems.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 is provided for each block for each communication partner, and time-division multiplexes the data of a plurality of terminals and a plurality of ISDNs for decomposing the multiplexed data from the partner. and basic interface, transmits through the ISDN public line to the other side and further multiplexes the multiplexed data multiplexed for each block by the plurality of ISDN basic interface, received from the other party through the ISDN public line the multiplexed data is decomposed into each block have at the one ISDN1 primary rate interface to be transmitted to said plurality of ISDN basic interface, to each of the plurality of ISDN basic interface, multiplexing multiplexed data High-speed interface / multiplexer for disassembly and terminal interface connected to the terminal on a one-to-one basis Connected to a plurality of terminal interface units and connected to the high-speed interface / multiplexing unit, and sends data sent from each terminal to the high-speed interface / multiplexing unit and from the high-speed interface / multiplexing unit A bus controller unit for sending the transmitted data to the bus, and the ISDN primary group speed interface includes a high speed interface for multiplexing and demultiplexing multiplexed data, and a transmission from the terminal A call control unit that performs call processing to the ISDN public line based on a request, and a connection unit that connects between the call control unit and the high-speed interface / multiplexing unit of the ISDN basic interface and the ISDN basic interface And is provided .
[0009]
[Action]
In the first aspect of the present invention, each ISDN primary group rate interface further multiplexes each multiplexed data multiplexed for each block by a plurality of ISDN basic interfaces, and transmits the multiplexed data to the partner side. Since the received multiplexed data is decomposed for each block, the data rate can be increased only by adding one ISDN primary group rate interface.
[0010]
【Example】
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram schematically showing an embodiment of a multiplexed communication apparatus according to the present invention. Components identical to those shown in FIG.
The time division multiplexing apparatus 106 shown in FIG. 1 is the same as that shown in FIG. 5, has an ISDN basic interface, and each block (110, 111, 112) shown in FIG. It is connected to the line multiplexing unit 201 via the interface 202 similar to the ISDN public line (NET64). Concentration multiplexing unit 201 has an ISDN primary group speed interface, and is connected to a partner side (not shown) via ISDN public line (NET 1500) 203.
[0011]
In such a configuration, the time division multiplexing device 106 on the transmission side multiplexes the data from each terminal 105 and sends it to the interface 202 for each block, as in the conventional example, and the concentrator multiplexing unit 201 performs the interface for each block. The multiplexed data on 202 is further multiplexed and transmitted to the other party via the ISDN public line (NET 1500) 203. Concentration multiplexing unit 201 on the receiving side decomposes the multiplexed data received via ISDN public line (NET 1500) 203 into blocks and distributes them to each block of time division multiplexer 106 via interface 202, Each block in the time division multiplexing apparatus 106 further decomposes the multiplexed data and distributes it to each terminal 105.
[0012]
FIG. 2 shows a concentrator / multiplexer 304 combined with the time division multiplexer 106 and the concentrator / multiplexer 201 shown in FIG. The concentrator / multiplexer 304 has an ISDN primary group rate interface, each of which is a concentrator multiplexed high-speed interface (I / F) 303 and an ISDN public line (NET 1500) call control unit 305, and blocks “1” to “ 3 ”includes an ISDN public line (NET64) connection unit 307 and a high-speed line interface / multiplexing unit 102 which are ISDN basic interfaces, a bus control unit 103, and a plurality of terminal interface units 104.
[0013]
The line multiplexing high speed I / F 303 is connected to the other party via the ISDN public line (NET 1500) 203 under the control of the ISDN public line (NET 1500) call control unit 305, and the line concentration multiplexed high speed I / F 303 and the ISDN public of each block. The line (NET64) connection unit 307 is connected via a transmission line multiplexing bus 301 and a reception line multiplexing bus 302. Also, the ISDN public line (NET 1500) call control unit 305 and each block's ISDN public line (NET 64) connection unit 307 are connected via call control information transmission buses 308 and 309, and each block has a high-speed line interface / multiplexing unit. 102 and the ISDN public line (NET64) connection unit 307 are connected via an interface 202 similar to the ISDN public line (NET64).
[0014]
Further, as in the conventional example, the bus control unit 103 and the terminal interface unit 104 in each block are connected via a multiplexing bus 107 for reception and a multiplexing bus 108 for transmission, and also the terminal interface unit 104. And the terminal 105 are connected via an interface cable 113.
[0015]
In such a configuration, each block of the concentrator / multiplexer 304 on the transmission side first takes data from various terminals 105 into each terminal interface unit 104 via each interface cable 113 as in the conventional example, The data is transmitted from the terminal interface unit 104 to the bus control unit 103 via the multiplexing bus 108 for transmission, the bus control unit 103 performs bus connection, and the high-speed line interface / multiplexing unit 102 performs time division multiplexing.
[0016]
In this embodiment, the data is transmitted from the multiplexing unit 102 of each block to the ISDN public line (NET64) connection unit 307 via the interface 202, and the connection unit 307 receives the high-speed line interface / multiplexing unit 102 from the block. The multiplexed data is received and sent to the concentrated multiplexing high-speed I / F 303 via each concentrated transmission multiplexing bus 301 for transmission, and the ISDN public line is received via the call control information transmission bus 309 that the multiplexed data has been received. (NET 1500) Notify the call control unit 305.
[0017]
The call control unit 305 performs a call processing for a required time slot on the ISDN public line (NET 1500) 203 to secure a communication path with the other party, and the line multiplexing high-speed I / F 303 receives the ISDN public line. Multiplexed data from each block is concentrated and transmitted to the other party via a communication path secured on the line (NET 1500) 203. In the case of reception, the call control unit 305 notifies the connection unit 307 of the NET 64 to that effect, and the data received by the line multiplexing high-speed I / F 303 from the other side via the ISDN public line (NET 1500) 203. Is divided into blocks and distributed to the connection unit 307 of the NET 64, and the high-speed line interface / multiplexing unit 102 decomposes the time-division multiplexed data and distributes it to each terminal interface unit 104.
[0018]
Therefore, since the multiplexed data transmitted / received by the high-speed line interface / multiplexing unit 102 of each block is further concentrated and demultiplexed by the concentration-multiplexing high-speed I / F 303, the high-speed line interface / multiplexing unit 102 for each of the plurality of blocks. Multiplexed data transmitted and received by can be transmitted via a single ISDN public line (NET 1500) 203. In addition, the data rate can be increased by simply adding a single line multiplexing high-speed interface (I / F) 303 and an ISDN public line (NET 1500) call control unit 305 and an ISDN public line (NET 64) connection unit 307 for each block. Can be increased.
[0019]
Further, since the calling channels of the ISDN public line (NET 1500) 203 can be increased or decreased as necessary, each terminal interface unit 104 is configured to be able to detect a transmission request of the terminal 105, and at the time of transmission, a high-speed line interface / multiplexing is possible. Unit 102 makes a call request to ISDN public line (NET 64) connection unit 307, and ISDN public line (NET 1500) call control unit 305 makes a call to ISDN public line (NET 1500) 203 in response to the call. As a result, a communication path having only a minimum necessary bandwidth is secured, so that the communication cost can be reduced.
[0020]
FIG. 3 shows an example of a usage form of the present invention, which is divided into three sites 401 to 403 and installed. The sites 401 and 402 are both configured by the time division multiplexing apparatus 106 and the terminal 105 similar to those in the conventional example, and the site 403 is configured by the line multiplexing and multiplexing unit 201 as shown in FIGS.
[0021]
Further, each time division multiplexing apparatus 106 at the sites 401 and 402 and the line multiplexing unit 201 at the site 403 are connected via an interface 202 similar to the ISDN public line (NET 64), and the line multiplexing unit 201 is connected to the ISDN public line. It is connected to the other party via (NET 1500) 203. Similarly, the other party's multiplexed communication apparatus can be divided into sites 401-403.
According to such a configuration, even when the sites 401 and 402 are relatively short distances and the site 403 is a long distance, the data rate can be increased with an inexpensive configuration.
[0022]
Here, between the high-speed line interface / multiplexing unit 102 and the ISDN public line (NET64) connection unit 307 shown in FIG. 2, transmission can be performed in units of B channels via the interface 202 similar to the ISDN public line (NET64). On the other hand, the ISDN public line (NET 1500) 203 can be connected to a plurality of other parties. With reference to FIG. 4, another use form of the present invention using this function will be described. First, in a basic usage mode, each of the time division multiplexing blocks 501A to 501C includes a high-speed line interface / multiplexing unit 102, a bus control unit 103, and a plurality of terminal interface units 104. The multiplexing unit 102 is connected to the line concentration multiplexing unit 201 via the interfaces 202A to 202C similar to the ISDN public line (NET 64).
[0023]
Here, as another usage mode, when the blocks 501A and 501B are operated as existing facilities for communication with the counterparts A and B, respectively, the block 501C is added for communication with the counterpart C. If the time division multiplexing capacity of the high-speed line interface / multiplexing unit 102 and the bus control unit 103 in the block 501A or 501B has a margin, the ISDN public line (NET 1500) 203 is connected to a plurality of counterparts. Since the connection is possible, the block 501C can be combined with the block 501A or 501B without the high-speed line interface / multiplexing unit 102 and the bus control unit 103.
[0024]
【The invention's effect】
As described above, in the first aspect of the present invention, each multiplexed data multiplexed for each block by a plurality of ISDN basic interfaces is further multiplexed and transmitted to the other party by one ISDN primary group rate interface. In addition, since the multiplexed data received from the other party is decomposed for each block, the data rate can be increased only by adding one ISDN primary group rate interface. Further, since the call channels of the ISDN public line can be increased or decreased as necessary, each terminal interface unit is configured to be able to detect a terminal transmission request and from the high-speed line interface / multiplexing unit to the connection unit 307 at the time of transmission. The call control unit 305 makes a call to the ISDN public line in response to the call and secures a communication path with only the minimum necessary bandwidth, thereby reducing the communication cost. Can do.
[Brief description of the drawings]
FIG. 1 is a block diagram schematically showing an embodiment of a multiplexed communication apparatus according to the present invention.
2 is a block diagram showing in detail an example of the multiplexing communication device of FIG. 1;
FIG. 3 is a block diagram showing a usage pattern of the multiplexed communication apparatus of FIG.
4 is a block diagram showing another usage pattern of the multiplex communication apparatus of FIG. 1. FIG.
FIG. 5 is a block diagram showing a conventional multiplexed communication apparatus.
[Explanation of symbols]
102 High-Speed Line Interface / Multiplexing Unit 103 Bus Control Unit 104 Terminal Interface 105 Terminal 106 Time Division Multiplexing Device 201 Concentration Multiplexing Unit 202 NET64 Interface 203 ISDN Public Line (NET 1500)
303 Concentration multiplexing high-speed interface 305 ISDN public line (NET 1500) call control unit 307 ISDN public line (NET 64) connection unit

Claims (1)

A plurality of ISDN basic interfaces provided for each block for each communication partner, time-division-multiplexing data of a plurality of terminals, and decomposing multiplexed data from the partner;
Transmits through the ISDN public line to the other side and further multiplexes the multiplexed data multiplexed for each block by the plurality of ISDN basic interface, multiplexing data received from the other party through the ISDN public line the decomposed into each block have at the one ISDN1 primary rate interface to be transmitted to said plurality of ISDN basic interface,
Each of the plurality of ISDN basic interfaces includes a high-speed interface / multiplexing unit for multiplexing and decomposing multiplexed data, a terminal interface unit connected to the terminal on a one-to-one basis, and a bus to the plurality of terminal interface units. A bus that is connected and connected to the high-speed interface / multiplexing unit, sends data sent from each terminal to the high-speed interface / multiplexing unit, and sends data sent from the high-speed interface / multiplexing unit to the bus And a control unit,
The ISDN primary group rate interface includes a high-speed line-multiplexing high-speed interface for multiplexing and decomposing multiplexed data, a call control unit for performing call processing to the ISDN public line based on a transmission request from a terminal, A multiplex communication apparatus comprising: a call control unit; a connection unit that connects between the high-speed interface / multiplexing unit of the line multiplexing high-speed interface and the ISDN basic interface .

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