JPH0681149B2 - Data transmission device duplication method - Google Patents

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a duplex system of a data transmission device.

[Prior art]

As a duplication method of this kind of transmission device, different station numbers are set for the transmission devices in the normal mode and the standby mode, respectively, as shown in FIG. 4, and transmission is performed between the duplicated transmission devices. A method is known in which hardware different from the road is used to mutually monitor normality / abnormality. In the figure, 1 is a transmission line, 2 is a transmission device, and 3 is mutual monitoring hardware.

[Problems to be Solved by the Invention]

However, in such a duplexing method, when another transmission device transmits data to the duplicated transmission device, the device is duplicated in order to match the data of the regular and standby transmission devices. It is necessary to transmit the same data twice by changing the destination station number in consideration of the fact that the data is transmitted.
Further, there is a drawback in that hardware for monitoring between the duplicated transmission devices is required, and it is not possible to monitor each other in terms of cost and abnormality of the monitoring hardware. The present invention makes it possible to set the station numbers of the regular and standby transmission devices of a duplicated transmission device to the same, so that other transmission devices can perform data transmission without being aware of duplication. It is an object of the present invention to provide a duplexing method of a transmission device that enables mutual monitoring of the duplication transmission device using a path.

[Means and Actions for Solving Problems]

According to the present invention, in a duplexed transmission device in which one is in normal use and the other is in parallel operation in standby mode, the station numbers of the normal and standby transmission devices that are always connected to the transmission line are set to the same, and the normal mode is set. By enabling both transmission and reception of data for the other transmission device and enabling reception only for the transmission device in the standby mode, other data transmission devices can transmit data without being aware of duplication, and always wait. We have achieved equalization of the data of both transmission devices. Furthermore, the transmission device in standby mode monitors whether or not a transmission frame whose source station number is the same as its own station number exists on the transmission path within a fixed time. No special hardware is required for mutual monitoring of duplicated transmission equipment by sending data to the transmission equipment and monitoring the response.

Examples of the invention

FIG. 1 is a block diagram of a transmission system to which the present invention is applied. Each transmission device 5 (station number N to N + n)
Are connected via the transmission line 4, and the transmission device of the station number N is duplicated. The access method of the transmission path is the token passing method, and the transmission right is sequentially transferred to all the transmission devices connected to the transmission path by using the token path frame (N → N + 1 → N + 2 → N + n →
N ... is used. In addition, a transmission frame transmitted from one transmission device on the transmission path can be received by all other transmission devices. Duplexing / duplexing, normal (standby power-on) mode normal / standby, and station number at duplication are preset in each transmission device 5. Figure 2 shows the general structure of a transmission frame.
It consists of a header part (32 bytes) indicating the destination, source station number, frame type, etc., a data part (up to 8 Kbytes), and an FCS (Frame Check Sequence) (2 bytes). Fig. 3 shows the structure of the token pass frame used for token delivery.
Byte) and FCS (2 bytes). D in the header
A (Destination Address) represents the destination station number, and SA (Source Adderess) represents the source station number. For example, when the transmission device with the station number N transmits a transmission frame to the transmission device with the station number N + 1, DA = N + 1 and SA = N. The transmission interval of the token path frame of each transmission device is about 1 second at maximum although it varies depending on the system configuration (the number of connected transmission devices and the number of transmission data). Among the duplexed transmission devices, the transmission device in standby mode monitors the token path frame flowing through the transmission path and compares the transmission source station number (SA) with the preset own station number, SA = own station When the token pass frame with the number is received, it is determined that the transmission device in the normal mode is normal. Further, if the token pass frame of SA = own station number is not received even after the maximum token pass frame transmission interval time has elapsed, it is determined to be abnormal and the standby mode is shifted to the normal mode. In addition, the transmission device in the normal mode transmits data to the transmission device in the standby mode when the transmission right is acquired (when the token frame for itself (DA = own station number) is received) and when there is no transmission data to another station, Monitor the response. If there is no response, the standby mode transmission device is determined to be abnormal. The transmission device in the normal mode can receive data from other transmission devices and can transmit data when the transmission right is acquired.However, the transmission device in the standby mode does not acquire the transmission right and enables only the reception of data, so The station numbers of the standby transmission devices can be set to the same value. However, only the transmission of response data in response to the data reception from the transmission device in the normal mode is enabled. That is, 2 in the configuration of FIG.
The duplicated transmission device with the station number N is used for both regular and standby station numbers N + 1, N + 2 ,.
Data is received from the + n transmitter, but transmission is possible only from the normal mode. As a result, the transmission devices with station numbers N + 1, N + 2, N + n have station number N.
It becomes possible to transmit data without considering the fact that the transmission device is duplicated.

【The invention's effect】

According to the present invention, since the station number of the duplicated transmission device can be set to the common / standby joint single number, other transmission devices can perform data transmission without being aware of the duplication. Moreover, since mutual monitoring between the duplicated transmission devices can be performed using the transmission path, there is an advantage that monitoring hardware is not required.

[Brief description of drawings]

FIG. 1 is a block diagram of a transmission system to which a duplexing method of a transmission device according to the present invention is applied, FIG. 2 is a block diagram of a general transmission frame used in the present invention, and FIG. 3 is used in the present invention. Diagram of token pass frame to be processed, 4th
The figure shows a block diagram of a conventional transmission system. 1,4 …… Transmission path, 2,5 …… Transmission equipment, 3 …… Mutual monitoring hardware.

Claims (1)

[Claims] 1. In a duplexed transmission device, one of which is normally used and the other of which is operated in parallel in a standby mode, the station numbers of the normally and standby transmission devices that are always connected to a transmission line are set to be the same, and The transmission device in the mode is valid for both data transmission and reception, and the transmission device in the standby mode is effective only for reception.For the transmission device in the standby mode, a transmission frame whose source station number is the same as its own station number exists on the transmission path within a fixed time. The transmission device in the normal mode transmits data to the transmission device in the standby mode when the data transmission right is acquired and monitors the response to monitor the normality / abnormality of the duplicated transmission device. A duplexing method for a data transmission device, characterized in that