JPS58190138A - Loop-back controlling system - Google Patents

Abstract

PURPOSE:To prevent the formation of a closed loop (deadlock) of a control line, by making use of the fact that the transmission of control line is not required until the loop is released after a loop-back controlling signal is transmitted. CONSTITUTION:In a normal working state, a latching circuit 5 is set first with transmission of a loop-back control releasing signal TF. Therefore a control signals CONT1-CONTm are transmitted to a device B regardless of the presence of gate circuits 6 and 6-1-6-m, respectively. When a loop-back controlling signal L is transmitted, the circuit 5 is reset. Then the signal TF is transmitted again, and the circuit 5 is set. Meanwhile, the circuits 6 and 6-1-6-m are closed to inhibit transmission of control signals including the signal LP.

Description

Detailed Description of the Invention +11 Technical Field of the Invention The present invention relates to a method for maintaining communication systems in a connection relationship that allows mutual monitoring, for example, nine communication devices connected on a back-to-back basis, and particularly relates to a method for configuring the system. The present invention relates to a maintenance method that can safely control communication devices.

More specifically, in such a communication system, the present invention relates to a loopback control method (hereinafter referred to as a loop control method) for controlling a destination communication device to loop back a signal transmitted from its own station. be.

(2) Prior art and problems The loopback control in the normal communication 7 system is
This method is carried out only for the main signals transmitted between the communication devices that make up the system - that is, the loopback control signal sent to execute the loopback is connected to a transmission line separate from the main signal. using
The sending and receiving was taking place.

However, in recent communications/systems, for the purpose of efficient use of transmission lines, 1. In order to enable monitoring and control of the control line itself,
・A system that performs loopback control on the control line is being considered.

In a communication system in which loopback control of the control signal itself is possible, for example, by loopback control from the first communication device, the control signal sent from the first communication device to the second communication device is The communication device operates to send back the received signals, including the control signals, to the first communication device. Therefore, in a system where loop puncture control is performed, when a new loopback control signal is sent, the loopback control signal is sent back to the local station as is, loopback control is performed, and a closed control loop ( (double loopback), making it difficult to restore the system.

Referring to FIG. 1, the above double loop pattern.

Explain why the (de-lock) condition is caused.

Nine devices λ and device B are connected back to back.
2, first, an external control signal a is superimposed on the main signal line l from device A, and a loopback control signal is sent to device B.
K is sent. In device B, a loopback line 4 is formed by the wrinkled loopback control signal, and signals from the device input including the control signal are transmitted here, before the loopback control initiated by the device operator is released. When a loopback control signal is sent from the equipment operator again using the external control signal a, the loopback control signal is already connected to the equipment [B].
The loopback control signal is sent back to the device λ as is via the main signal line 2.

When device A receives the loopback control signal sent by itself, it forms a return line 3 during normal operation, as in the case where it receives the loopback control signal from device B. The received signal is sent back to device B as is.

Due to the above steps, a double loopback is formed between the device B and the device connected back to back, and there is a problem in the conventional system that it becomes difficult to restore the system.

(3) Purpose of the Invention The present invention has been devised in view of the above-mentioned problems in the conventional loopback control. It is an object of the present invention to provide a loopback control method capable of restoring normal signal receipt mK.

(4) Structure of the Invention In the present invention, it is noted that once the loop-back control signal is sent, there is no fee to send the control signal again until the loop-back control is canceled. After sending the loopback control signal from the device to the second communication device, prohibiting the sending of all control signals other than the loopback control release signal among the control signals sent from the first communication device; Further, the transmission prohibition control of the control signal is canceled by sending the loopback control release signal.

(5) Embodiment of the invention An embodiment of the invention will be described below with reference to the drawings.

FIG. 2 is a configuration diagram showing an embodiment of the present invention, in which the loopback control release signal TF, loopback control signal LP, and control signals 00NT□ to C0NTm are each shown as isolated lines for explanation. It is something.

Loopback control signal LP, control signal 0ONT1 to Q
ON 'I'm are gate circuits 6.6-1 to 6, respectively.
-rn, and the output of the latch circuit 5 is connected to the other input terminal of the gate circuit.

During normal operation, the latch circuit 5 is first set by sending out the loopback control release signal 'rF1.Generally, normal operation is performed after the loopback control has been released at the target time, and this requires no special attention. Generally, the latch circuit 5 is set only when the system is started. Furthermore, it is also possible to configure the latch circuit 5 to be set in conjunction with system startup.

As mentioned above, during normal operation, the latch times 1i85 are set, so the control signal 0ON'l['1 to C0N
Tm is sent to device B regardless of the existence of gate circuits 6.6-1 to 6-m. However, when sending out the loop pack control signal LP, the latch circuit 5 is reset by K, and the loop back control release signal TF is sent out again, and the gate circuit 6.6 is in the trench where the latch circuit 5 is set.
-1 to 6-m are closed to prohibit transmission of control signals including loopback control signals.

For the sake of explanation, in Fig. 2, each control signal is shown as an independent transmission line, and the output of each control signal is controlled using an AND gate and a latch circuit, but the present invention is not applicable to this. It is not limited to.

That is, it is possible to prohibit exit of the control signal after sending the loopback control signal by other logical processing, and to cancel this by sending the loopback control release signal.

(6) Effects of the Invention As described above, the present invention provides a loopback control system that prevents the formation of closed loops (dead lines) in control lines with a very simple configuration.

FIG. 1 is a communication system diagram for explaining problems in the prior art, and FIG. 2 is a diagram schematically showing an embodiment of the present invention.

In the figure, 1.2 is a transmission line between communication devices A and B, 3.4 is a return line formed within device A and device B, respectively, and 5
is a latch circuit, 6.6-1 to 6-m are gate circuits, T
F is the loopback control release signal, LP is the loopback control #failure signal, □UNTl to (jONTm are the control signals 1

Claims (1)

[Claims] 1. In loopback control between two communication devices that are in a connection relationship that allows mutual monitoring and that is capable of loopback control of the control signal itself, a loopback control signal from a first communication device to a second communication device After transmission, among the control signals sent from the first communication device, transmission of all control signals other than the return control release signal is prohibited, and by sending the return control release signal, transmission prohibition control of the control signal is performed. Loop I (Tsuku control method) characterized by canceling the .