JPH01140850A - Line terminal equipment - Google Patents

Abstract

PURPOSE:To transmit both a digital signal and an analogue signal by transmitting the analogue signal through the use of the silence section of the digital signal in line terminal equipments which transmit and receive the signals through one transmission line. CONSTITUTION:A control part in the line terminal equipment 5 controls a switch and connects terminals 10 and 14 in a section except for the transmission section T1 of the digital signal and a reception section t2. A control part in a line terminal equipment 2 controls a switch in a section except for the reception section t1 of the digital signal and a transmission section T2, and connects the terminals 10 and 14. As a result, telephone sets 3 and 7 are connected to the transmission line 4 in the sections and the two way full duplex communication of sound signal being the analogue signal is executed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a line termination device, and more particularly to a line termination device that performs bidirectional signal transmission over a single transmission path.

[Conventional technology]

FIG. 4 shows a communication system configured using a conventional line termination device. This communication system is composed of a line termination device 51, a terminal 50, a transmission path 52, and a line termination device 53 and a terminal 54 installed at a network administrator such as a telephone office. The terminals 54 are each connected to a line termination device 53, and the line termination devices 51 and 53 are connected by one transmission line 52.

A transmission signal generated at the terminal 50 is sent to a communication partner terminal 54 through a line termination device 51, a transmission line 52, and a line termination device 53. On the other hand, the transmission signal generated at the terminal 54 passes through the line terminating device 53, is received by the line terminating device 51 via the same transmission path 52, and is given to the terminal 50.

Such bidirectional signal transmission is performed based on a time division multiplexing bidirectional transmission system. In this system, one transmission line is used for time-division upstream and downstream signal transmission, and normally, upstream and downstream signal transmission is switched at a constant cycle.

FIG. 5 shows the timing chart. The line termination device 53 outputs the transmission signal a in the time segment numeral 11.

This signal is input to the line termination device 51 after being delayed by the propagation time T44 of the transmission line 52. After the line termination device 51 receives all the signals within the time interval t, and the guard time Tg9 has elapsed, it outputs a transmission signal S to the line termination unit 53 during the time interval t. The signal is then input to the line termination device 53 after being delayed by the propagation time T'aa of the transmission line 52. The line termination device 53 transmits the next transmission signal after a sufficiently long margin time T- has elapsed in order to avoid collision between the signal received within the time interval t2□ and the transmission signal of the next period.

In this way, in a communication system configured with a conventional line termination device, bidirectional signal transmission is performed by switching between transmission and reception at a constant cycle T0°.

[Problem that the invention seeks to solve]

In the communication system using the conventional line termination device described above,
When the main purpose is to transmit digital signals from the terminals 50 and 54, the transmission signals a and b are generally transmitted through the transmission line 52 as digital signals.

By the way, when carrying out line maintenance work, etc., in order to perform the work efficiently, it is necessary to have a voice conversation between the workers on both the line termination devices 51 and 53. In order to enable such conversations with conventional communication systems, it is necessary to have the ability to convert analog audio signals into digital signals, and vice versa, to convert digital audio signals back to analog signals. must be added to the line termination devices 51 and 53, respectively.

In other words, in order to be able to transmit not only digital signals but also analog signals using conventional line termination equipment, the signal conversion function described above is required, so the scale of the equipment becomes extremely large. The problem of becoming thicker arises.

An object of the present invention is to solve these problems and provide a small-scale line termination device that can transmit both digital and analog signals.

[Means for solving problems]

The present invention provides a line termination device that transmits signals through one transmission path, comprising: a first terminal connected to the transmission path; a receiving section that receives a digital signal from the transmission path; a transmitting section that transmits a digital signal; a second terminal that inputs or outputs an analog signal; and one of the receiving section, the transmitting section, or the second terminal and the first terminal for a predetermined period of time. The present invention is characterized in that it is equipped with a switching device that switches and connects at intervals.

〔Example〕

Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing the line termination device of this embodiment. This line termination device includes a terminal 10 connected to a transmission line,
A receiving section 11 that receives a digital signal from a transmission path, a transmitting section 12 that sends a digital signal to the transmission path, a terminal 14 that inputs or outputs an analog signal, and the receiving section 1
1. Either the transmitter 12 or the terminal 14 and the terminal 1
0 at predetermined time intervals.
5, further controls the switch 15 to perform switching at predetermined time intervals as described above, and further includes a receiver 11.
The control unit 17 converts a digital signal from the line terminal into a digital signal suitable for the terminal 16 connected to the line termination device.

FIG. 2 shows a block diagram of a system that is constituted by such a line termination device 2.5 and performs communication based on a time division multiplexed bidirectional communication system. This communication system is composed of line termination devices 2 and 5, terminals 1 and 6, transmission line 4, and telephone 3.7. Terminal 1 is connected to line termination device 2, and terminal 6 is connected to line termination device 5. Each terminal 10 of the line termination device 2.5 is connected to one transmission line 4.
connected by. Further, the telephones 3 and 7 are connected to terminals 14 of the line termination devices 2 and 5, respectively.

FIG. 3 is a timing chart showing the time allocation of uplink and downlink bidirectional communication that is repeated every fixed period T0 between the line termination devices 2.5, and the operation of the line termination devices 2 and 5 is Explain.

First, in the line terminating device 5, the control section 17 sends a control signal C to control the switching device 15, and connects the transmitting section 12 to the terminal 10 in the time section numeral 1. The transmitter 12 then outputs a transmit signal aO, which is a digital signal input from the terminal 6 through the controller 17.

This signal is delayed by the propagation time Td of the transmission line 4 and is input to the line termination device 2.

In the line termination device 2, the control section 17 outputs a control signal C to control the switching device 15, and connects the receiving section 11 to the terminal 10 at time interval t. The receiving section 11 receives all the signals input from the transmission path 4 and outputs them to the control section 17. The control unit 17 converts this received signal into a digital signal suitable for the terminal 1 and then outputs it to the terminal 1.

Next, the line terminating device 20 control unit 17 controls the switching device 15 to select the interval T corresponding to the protection time, and the subsequent time interval numerator! The transmitter 12 is connected to the terminal 10 during the period.

The transmitter 12 then outputs the transmit signal bO, which is a digital signal input from the terminal 1 through the controller 17, to the transmission path. This signal bo is input to the line termination device 5 after being delayed by the propagation time T4 of the transmission line 4.

In the line termination device 5, the control section 17 controls the switch 15 to connect the reception section 11 to the terminal 10 during the time period t2, and the reception section 11 receives the signal bo from the line termination device 2.
is received and output to the control unit 17. The control section 17 converts the signal from the reception section 11 into a digital signal suitable for the terminal 6 and outputs it to the terminal 6. Then, in order to avoid collision between the received signal and the next period's transmission signal, the control unit 17 switches the switch so that the next transmission signal is sent out after a sufficiently long margin time (corresponding to section T) has elapsed. 15 to connect the transmitter I2 and the terminal 10.

As described above, the line termination devices 2 and 5 transmit and receive digital signals.

On the other hand, the analog signal transmitted and received by the telephone 3.7 is transmitted as follows using the no-signal period of the digital signal. That is, in the line termination device 5, the control unit 17 controls the transmission period T and the reception period t of the digital signal.
In the section excluding z, the switch 15 is controlled to connect the terminals 10 and 14.

Further, in the line termination device 2, the control section 17 controls the reception period 1.1 of the digital signal. Then, the switch 15 is controlled to connect the terminal 10 and the terminal 14 in a section other than the transmission section T2. As a result, the telephones 3, 7 are connected via the transmission line 4 in these sections, and bidirectional full-duplex communication of audio signals, which are analog signals, becomes possible. However, the time during which a voice signal can be received from the other party's telephone is limited by the propagation delay time Td, the protection time, and the margin time.
TS and 'rm are the sections where voice communication can actually be performed.

In this way, analog audio signals are transmitted and received divided into short periods of time allocated to each fixed period T0, but because the period T0 is a very short period of time, the receiver cannot fully understand the transmitted audio information. be able to.

〔Effect of the invention〕

As explained above, the present invention provides a line termination device that transmits signals via one transmission path, which includes a first terminal connected to the transmission path, a receiving section that receives digital signals from the transmission path, a transmitting unit that transmits a digital signal to the road;
It includes a second terminal for inputting or outputting an analog signal, and a switching device for switching and connecting the receiving section, the transmitting section, or the second terminal to the first terminal at predetermined time intervals. .

Therefore, according to the present invention, it is possible to realize a small-scale circuit 'A termination device that can transmit both digital signals and analog signals.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a block diagram showing a communication system configured according to the embodiment of FIG. 1, and FIG. 3 explains the operation of the communication system shown in FIG. 2. FIG. 4 is a block diagram showing a communication system configured with a conventional line termination device. FIG. 5 is a timing chart for explaining the operation of the communication system of FIG. 4. 2.5...Line termination device 1, 6.16...Terminal 3.7...Telephone 4...Transmission line 10, 14...Terminal 11. ...... Receiving section I2... Transmitting section 15... Switching device 17... Control section agent Patent attorney Yoshiyuki Iwa-sa Figure 1 Figure 2 Figure 3 Figure 4 Times

Claims (1)

[Claims] (1) A line termination device that transmits signals through one transmission path, comprising: a first terminal connected to the transmission path; a receiving section that receives digital signals from the transmission path; and a digital signal connected to the transmission path. a transmitting section that transmits a signal; a second terminal that inputs or outputs an analog signal; and one of the receiving section, the transmitting section, or the second terminal and the first terminal at a predetermined time interval. A line termination device characterized by comprising a switching device for switching and connecting.