JPS6113439B2 - - Google Patents

Description

[Detailed description of the invention]

The present invention relates to a digital subscriber line carrier system that connects subscriber telephones and digital exchanges using digital transmission lines. Conventionally, since the interface conditions between digital exchanges and digital subscriber line carrier systems have not been standardized, it has been possible to connect digital exchanges and digital subscriber line carriers from the same manufacturer. However, it is generally difficult to connect devices from different manufacturers. That is, one of the important interface conditions is the signaling information transmission method, but a standard signaling information transmission method in the digital subscriber line carrier system has not yet been determined. Therefore, users must use switching equipment and subscriber line carrier systems from the same manufacturer. For example, when a common line signaling system is used in a digital exchange, individual line signaling systems cannot be used in combination as digital subscriber line transmission systems, which limits the degree of freedom in system configuration. Moreover, it has drawbacks such as being expensive. The present invention improves on this point, and aims to provide a digital subscriber line carrier system that can connect digital exchanges with different signaling transmission systems and the digital subscriber line carrier system. The present invention relates to a digital subscriber line carrier system that includes a remote terminal station to which a subscriber telephone is connected via a cable, and a digital transmission line that connects the remote terminal station and a digital exchange. A master station device for converting the signaling information transmission method is provided between the switching equipment and the digital switching equipment, and the digital subscriber line carrier system having a different signaling information transmission method can be connected to the digital switching equipment. do. This will be explained in detail based on the drawings. FIG. 1 is a frame configuration diagram of the 1.544 Mb/S system.
1.544Mb/S primary group as digital transmission path
When using a PCM relay transmission path, the transmission of signaling information is generally LSB (Least Significant
bit) is used to transmit signaling information once every six frames (bit stay method). That is, FIG. 1 shows the bit structure of five frames every six frames, and FIG. 1 shows the bit structure of one frame every six frames. This signaling information transmission bit SIG is provided for each of the 24 audio channels, and is generally used as an individual line signaling system for transmitting the signaling information associated with each channel. On the other hand, it is also possible to use the S bit for transmitting common line signals. Table 1 shows examples of the use of the F bit. That is, the F bit is always "1" in frame number 1 and always "0" in frame number 3. In frame numbers 2 and 4, this F bit is used as the S bit.

[Table] When the digital exchange adopts such a common line signaling system and the digital subscriber line transport system adopts the individual line signaling system, there is a disadvantage that the two cannot be used in direct combination. The present invention focuses on providing a master station device that converts the transmission method of signaling information and using the two in combination. FIG. 2 is a block diagram of essential parts of an embodiment of the present invention. A subscriber telephone line 1 is connected to a remote terminal station 2. This remote terminal station 2 is connected to a master station device 5, which is a feature of the present invention, via a PCM relay transmission line 3. A digital exchange 6 is connected to this master station device 3. FIG. 3 is a block diagram of a main part of the master station device 3 shown in FIG. 2. As shown in FIG. FIG. 3 shows only an example of the configuration of the transmitting side, and the configuration of the receiving side, which has a similar configuration, is omitted from the drawing. The output from the digital exchange 6 (Fig. 2) is a bipolar signal unipolar signal conversion circuit (hereinafter referred to as "BU conversion circuit").
It is guided by 7. The output of this BU conversion circuit 7 is led to a synchronization circuit 8. The output of this synchronization circuit 8 is led to a coupling circuit 9. Another output of the synchronous circuit 8 is led to a microprocessor 10, and the output of this microprocessor 10 is led to the coupling circuit 9. The output of this coupling circuit 9 is led to a unipolar signal bipolar signal conversion circuit (hereinafter referred to as "U-B conversion circuit") 11. The output of this U-B conversion circuit 11 is led to a PCM relay transmission line 3 (FIG. 3). With this circuit configuration, the bipolar PCM signal from the digital exchange 6 is converted into a unipolar PCM signal by the BU conversion circuit 7. This unipolar PCM signal is subjected to frame synchronization by a synchronization circuit 8, and the S bits are separated. This S
The bits are applied to the microprocessor 10 where the information is decoded and then converted into individual line signals and the result is output to the coupling circuit 9. After this individual line signal is combined with audio signal bits in the combining circuit 9, it is converted into a bipolar signal in the U-B conversion circuit 11 and sent to the PCM relay transmission line 3. The receiving side can also be realized with a similar configuration. Note that various other systems are known as signal transmission systems in the digital subscriber line carrier system. However, all of them use either the S-bit method or the bit-stay method, or a combination of both. Therefore, in such a signal transmission system, in the above example, it is necessary to input both the S bits and the bit-stalled LSB to the microprocessor, process the signals in the microprocessor, and then output them. As explained above, the present invention connects a digital exchange and a digital transmission line via a master station device that converts the transmission method of signaling information. Therefore, regardless of the signaling information transmission method adopted by the digital converter, a subscriber line carrier method remote terminal station can be selected. Therefore, the degree of freedom in system configuration can be improved. Moreover, the cost for this also has the effect of being low.

[Brief explanation of drawings]

Figure 1 is a frame configuration diagram of the 1.544Mb/s system. FIG. 2 is a block diagram of essential parts of an embodiment of the present invention. FIG. 3 is a block diagram of a main part of the master station device shown in FIG. 1...Subscriber telephone, 2...Remote terminal station, 3...
PCM relay transmission line, 5... Master station device, 6... Digital exchange, 7... U-B conversion circuit, 8... Synchronization circuit, 9... Coupling circuit.

Claims (1)

[Claims] 1. In a digital subscriber line carrier system that includes a remote terminal station to which a subscriber telephone is connected via a cable, and a digital transmission line that connects this remote terminal station and a digital exchange, the connection between the digital transmission line and the digital exchange 1. A digital subscriber line carrier system, characterized in that a master station device is provided for converting the transmission method of signaling information.