JPH05122105A - Line switching system - Google Patents

Abstract

PURPOSE:To improve the reliability of this line switching system by detecting abnormality in communication without executing complicated switching control. CONSTITUTION:On the receiving side, plural transmission line interfaces 5 (105), 6 (106) are connected to a receiving circuit 11 (108) through a bus type network 7 having an address specifying function. The receiving side sends normal receiving information to the transmitting side, which switches a working transmission line to the other when the normal receiving information is not received within a fixed time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a line switching system, and more particularly to a line switching system for realizing a system switching system for control signals transmitted by being superimposed on a main signal transmission line.

[0002]

2. Description of the Related Art An example of a conventional line switching system will be described with reference to FIG. In FIG. 2, (a) shows a forward transmission path, and (b) shows a reverse transmission path. In the conventional line switching system, as shown in FIG.
A transmission side transmission line interface (working transmission line interface) 22 (20) that interfaces with a pair of transmission lines
2), transmission side transmission line interface (spare transmission line interface) 23 (203) and branch circuit 24 (20
4), the receiving side transmission line interface (working transmission line interface) 25 (205), the receiving side transmission line interface (spare transmission line interface) 26 (206), and the line state monitoring circuit 27 (20).
7), 28 (208) and the switching control circuit 29 (209)
, The signal selection circuit 30 (210) and the reception circuit 31 (2
11) and.

Next, the operation will be described. First, on the transmission side, the signal generated by the transmission circuit 21 (201) is sent by the branch circuit 24 (204) to the working and standby transmission side transmission line interfaces 22 (202), 23 (2).
03), it is sent to both transmission lines. Next,
On the receiving side, an independent line state monitoring circuit 2 is provided for each transmission line.
7 (207) and 28 (208), the switching control circuit 29 (209) determines the transmission path to be used by using the detection result. Then, the two transmission path signals are both input to the signal selection circuit 30 (210), and the switching control circuit 29.
The signal selected by the control signal from (209) is delivered to the receiving circuit 31 (211).

[0004]

In this conventional line switching transmission system, each transmission line has an independent line state monitoring circuit, and only a signal of a selected transmission line among a plurality of transmission lines is provided. Since it is possible to reach the receiving circuit, there is a problem that complicated circuit switching control is required, and in particular, the circuit scale on the receiving side becomes large.

[0005]

A line switching system of the present invention is a switching system of a control system signal superposed on a transmission path for a main signal and transmitted, wherein a transmission circuit and a plurality of transmission circuits are provided in a transmission unit and a reception unit, respectively. A bus type network connecting the transmission line interface and a bus type network connecting the receiving circuit and a plurality of transmission line interfaces, and the reception side transmits a normal reception notification when the message is normally received, On the transmitting side, since the normal reception notification from the receiving side cannot be received, the transmitting side executes the line switching.

[0006]

In the present invention, the line switching is realized by software by using the normal reception notification abnormality in the transmitting unit.

[0007]

1 is a block diagram showing an embodiment of a line switching system according to the present invention. In FIG. 1, (a) shows a forward transmission path, and (b) shows a reverse transmission path. In FIG. 1, 1 (1
Reference numeral 01) is a transmission circuit in the transmission unit, 2 (102) is a transmission side transmission line interface (active transmission line interface), 3 (103) is a transmission side transmission line interface (spare transmission line interface), and 4 (104) is a transmission circuit. 1 (101) is a bus type network that connects a plurality of transmission line interfaces. 5 (105) is a receiving side transmission line interface (active transmission line interface) in the receiving unit, 6 (106) is a receiving side transmission line interface (spare transmission line interface), 8 (108) is a receiving circuit, and 7 (107) is This is a bus type network that connects the receiving circuit 8 (108) and a plurality of transmission line interfaces. Then, the reception side sends a normal reception notification when the message is normally received, and the transmission side executes the line switching at the transmission side because the normal reception notification from the reception side cannot be received.

Next, the operation of the embodiment shown in FIG. 1 will be described. First, on the transmission side, the transmission circuit 1 (101) is either the transmission side transmission line interface 2 (102) or the transmission side standby transmission line interface 3 (103) due to the addressing function of the bus network 4 (104). A message can be selectively transmitted to the crab.

Next, on the receiving side, the receiving side transmission line interface 5 (105) and the receiving side transmission line interface 6 (106) respectively receive the signals previously received from the transmission line through the bus network 7 (107). Circuit 8
It is programmed by the addressing function of the bus network 7 (107) to notify (108). Therefore, a signal that has passed through any of the transmission paths can also reach the receiving circuit 8 (108). Then, the transmitter transmits to the preset default transmission line side (herein, referred to as the transmission side transmission line interface 2 for the following description) at the time of starting the device. When the reception unit normally receives the information through the reception-side transmission path interface 5, it sends a normal reception notification to the transmission-side transmission path interface 102 that is paired with the transmission path to which it has been sent.

When there is a failure in either the transmission side transmission line interface 2 and the reception side transmission line interface 5, or between the transmission side transmission line interface 102 and the reception side transmission line interface 105, , The normal reception notification is not returned to the sender. Then, when the transmission unit does not receive the normal reception notification within a predetermined time, the same telegram is retransmitted to the transmission side transmission line interface 3 which is the other transmission line.

In this way, line switching is realized.
Then, when transmitting a message from the next time onward, first, the transmission path transmitted previously is used.

As described above, according to the present invention, the bus network 7 (having the addressing function for connecting the plurality of transmission line interfaces 5 (105), 6 (106) and the receiving circuit 8 (108) to the receiving side is provided. By connecting at 107), it is possible to reach the receiving circuit regardless of which transmission path is used. Then, the reception side notifies the transmission side of normal reception, and when the transmission side does not receive the normal reception notification within a fixed time, it switches to the other transmission path.

[0013]

As described above, according to the present invention, since the line switching is realized by software by using the normal reception notification abnormality in the transmitting unit, the receiving unit has the switching control circuit and the selecting circuit. In addition, the circuit size on the receiving side can be reduced. Further, since the bus network is used, there is an effect that wiring can be simplified.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a line switching system according to the present invention.

FIG. 2 is a block diagram showing an example of a conventional line switching system.

[Explanation of symbols]

 1 transmitting circuit 2, 3 transmitting side transmission line interface 4 bus type network 5, 6 receiving side transmitting line interface 7 bus type network 8 receiving circuit 101 transmitting circuit 102, 103 transmitting side transmitting line interface 104 bus type network 105, 106 receiving side Transmission line interface 107 Bus network 108 Receiver circuit

Claims (1)

[Claims] 1. A bus type network for connecting a transmission circuit and a plurality of transmission line interfaces to a transmission unit and a reception unit, respectively, in a switching system of a control system signal transmitted by being superimposed on a transmission line for a main signal. , A bus network connecting the receiving circuit and a plurality of transmission line interfaces, the receiving side sends a normal reception notification when the message is normally received, and the transmitting side receives the normal reception notification from the receiving side. The line switching method is characterized in that the line switching is executed on the transmitting side when there is no such request.