KR100238752B1 - Apparatus for transmitting maintenance data - Google Patents

Abstract

The present invention relates to an apparatus for transmitting maintenance data in a transmission apparatus. In the case of transmitting maintenance data with another counterpart, the data transmission line is increased and the channel connection unit of the monitoring unit is complicated every time the data transmission unit is added. Data transmission means for transmitting and receiving data to correspond to different counterparts to solve the problem, and data selection means for determining and outputting maintenance output from the monitoring means and data transmission from the counterpart as data transmission means, and data. Even if the data transmission unit is increased by providing a data transmission device comprising a monitoring means for determining whether the data received through the selection means and the data connection line correspond to the maintenance data corresponding to its own station, and transmitting the corresponding response data. Reduced data transmission lines and monitoring To avoid interference in the affected circuit can transfer data maintenance efficiently.

Description

Maintenance data transmission device in transmission equipment

1 is a block diagram of a maintenance data transmission apparatus in a conventional transmission equipment.

2 is a block diagram showing an example of a maintenance data transmission apparatus of the present invention transmission equipment.

<Explanation of symbols for main parts of drawing>

1: Station A 2: Station C

20: data transmission means 30: data selection means

40: monitoring means 100: station B

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to data channel transmission, and in particular, a maintenance data transmission device in a transmission device for transmitting data for maintenance in a transmission device more effectively, and for transmitting effective maintenance data used in forming a network. It is about.

The configuration for transmitting maintenance data in the conventional transmission equipment is one of the stations when station A (1), station B (10) and station C (2) respectively transmit data to each other, as shown in FIG. For example, the configuration of station B 10 includes a monitoring unit 12 having a channel connection unit 12a for data maintenance, and a connection line for transmitting and receiving data between transmission and reception stations between stations. It consists of the 1st, 2nd data transmission parts 11 and 13 to transmit.

In the conventional transmission equipment configured as described above, the data connection line of the monitoring unit 12 for maintenance requires four lines corresponding to the first and second data transmission units 11 and 13, and accordingly the monitoring unit The channel connection part 12a in (12) is required, and two more lines are required each time the data transmission part is added.

Referring to the operation of the prior art, for example, when the maintenance data is executed from the station B 10 to the station A 1, the data of the monitoring unit 12 transmits the first data through the channel connection unit 12a. When the station A 1 is inquired through the transmitting side of the unit 11, the station A 1 transmits the data of the corresponding response to the station B 10 via the internal data transmitter (not shown). The first data transmission unit 11 is transmitted to the receiving side and the monitoring unit 12, which is the same as when transmitting data from the station B 10 to the station C 2.

In addition, when the maintenance data is transmitted from the station A 1 to the station C 2 and the operation of the corresponding response is explained in another example, the maintenance data passing through the transmission side of the station A 1 will be described. The transmission is sent to the monitoring unit 12 via the receiving side of the first data transmission unit 11 in the station B 10.

Since the monitoring unit 12 which received the data thus transmitted is not its own maintenance data, it is connected to the transmission side of the second data transmission unit 13 of the station B 10 through the channel connection unit 12a to perform the maintenance. The data is transmitted to station C (2).

Accordingly, the station C 2 transmits the response data to the monitoring unit 12 through the receiving side of the second data transmission unit 13 of the station B 10, and the monitoring unit 12 receiving the response data receives the first data. 1 The data transmission unit 11 transmits the data to the A station 1 via the transmitting end.

However, such a prior art has a problem in that the line between the monitoring unit and the data transmission unit increases each time the data transmission unit increases, and the channel connection unit of the monitoring unit becomes complicated.

It is an object of the present invention to provide a maintenance data transmission apparatus in a transmission apparatus that is suitable for data channel transmission for maintenance of the transmission apparatus to solve the above problems.

The configuration of the present invention for achieving the above object is, as shown in Figure 2, the data transmission means 20 for transmitting and receiving data to correspond to different counterparts, and the data transmission means 20 Data selection means 30 for determining and outputting the maintenance output from the monitoring means 40 and the counterpart station, and the data received through the data connection line with the data selection means 30 is transmitted to its own station. It is composed of the monitoring means 40 to determine whether the corresponding maintenance data and transmit the corresponding response data.

An example configuration of one station (Station B) 100 to which the present invention is applied will be described in more detail. A first station connected to different counterpart stations (Station A (1) and Station C (2) to transmit and receive data is provided. The first and second data transmission units 21 and 22 and the first and second data transmission units 21 and 22 determine and output the maintenance output from the monitoring unit and the data transmission status of the other station. It is determined whether the data received through the second data selector 31, 32, and the first and second data selector 31, 32 and the data connection line is maintenance data corresponding to its own station. The monitoring unit 40 transmits one response data.

Such a configuration may increase the data selection unit due to the increase in the number of data transmission units as an example.

The first data selector 31 is a first data which is transmitted from a counterpart station (Station A) and blocks the transmission data according to the logical operation result of the received data and the received data through the monitoring unit 40. A first transmission determining unit 31b that logically combines the data transmitted by the first data transmission block 31a and the external data selection data with the data transmission block 31a to determine whether to transmit the transmission data to the other station. ).

The configuration of the embodiment of the first transmission data blocker 31a described above includes a first three-state buffer 31a ₁ that buffers and outputs the received data according to the control of the received data, and the first three. A pull-up resistor (R1) for pulling up the signal through the state buffer (31a ₁ ), and the logical output of the data received through the pull-up resistor (R1) and the data received through the first data transfer unit (21) 1 is composed of Iowa gate (31a ₂₎ and said first gate Iowa (31a _2), a first aND gate (31a ₃₎ is multiplied with the logical data by the monitoring unit 40 and the output data through.

Similarly, the second data selector 32 blocks the transmission data transmitted from the other station (station B) and the received data and the received data according to the logical operation result of the transmission data through the monitoring unit 40. A second transmission decision unit for determining whether to transmit transmission data to the other station by ORing the second transmission data blocking unit 32a and the data logically operated by the second transmission data blocking unit 32a and the external data selection data; Specifically, the second transmission data block 32a includes a second tri-state buffer 32a _{1 for} buffering and outputting the received data according to the control of the received data. Logic sum of a pull-up resistor R2 for pulling up the signal through the second tri-state buffer 32a ₁ , data received through the pull-up resistor R2, and data received through the second data transfer unit 22. 2nd output It is composed of Iowa gate (32a ₂₎ and a second gate Iowa (32a _2), a second AND gate (32a ₃₎ is multiplied with the logical data by the monitoring unit 40 and the output data through.

Here, the monitoring unit 40 of one station transmits data received from the same station to another station without transmitting to the same station.

Referring to the operation of the present invention configured as described as an example as follows.

When the station B 100 transmits the maintenance data of the monitoring unit 40, the second data transmission units 21 and 22 are connected through the first and second data selection units 31 and 32 of the station B 100. It is received by Station A (1) and Station C (2).

As described above, if the data received by the station A (1) and the station C (2) is the data corresponding to the self, the monitoring of the station A (1) and the station C (2) similarly to the monitoring unit 40 of the station B (100). The response is given by the department (not shown).

For example, if the received data corresponds to station A (1), the response data of station A (1) is received by the first data transmission unit 21 of station B (100) via the transmitting side of station A (1). The received data is passed through the _first tri-state buffer 31a ₁ in the first transmission data blocker 31a of the first data selector 31, at which time the received data is low. Is transmitted to the receiving side of the monitoring unit 40 via the data connection line.

On the other hand, if the received data is high, it is transmitted to the monitoring unit 40 in the high state by the pull-up resistor R1.

Although the data transmitted to the monitoring unit 40 of the station B 100 is connected to the transmitting side of the same station A 1 as described above, the monitoring unit 40 does not transmit to the transmitting side of the station A 1. It is connected to the second data transmission section 22 and transmitted to the station C. The monitoring section of the station C 2 is not magnetic data and thus is ignored.

Accordingly, if the maintenance data of the monitoring unit is transmitted from the station A 1 to the station C 2, the maintenance data of the station A 1 is sent to the receiving end of the first data transmission unit 21 of the station B 100. And is received by the _first tri-state buffer 31a _{1 in} the first data selection section 31.

The data received in this way is transmitted to the monitoring unit 40 and the second data selecting unit 32 of the station B 100, and the monitoring unit 40 of the station B receiving the transmitted data is not magnetic data. Ignore it.

Therefore, the data received by the second data selecting section 32 is transmitted to the transmitting side of the second data transmitting section 22 and then transmitted to the receiving side of the station C 2, so that the monitoring section of the station C 2 In response to this, the response is transmitted to the receiving side of the second data transmitting section 22 of the station B 100 via the transmitting side of the station C.

As such, the response data received by the second data transmission unit 22 is transmitted to the monitoring unit 40 and the first data selection unit 31 of the station B 100 via the second data selection unit 32. Since the monitoring unit 40 of 100 is not magnetic data, it is ignored and the response data is transmitted to the station A 1 via the transmitting side of the first data transmission unit 21.

As described above, the first and second data selection units 31 and 32 in the present invention block the transmitted data so that the data transmitted by the self is not formed in a loop when the network is formed in a ring structure.

As described above, the present invention can reduce the data transmission line of the monitoring unit even if the data transmission unit increases, and can effectively transmit maintenance data by not being affected by the circuit of the monitoring unit.

Claims (3)

Data transmission means 20 for transmitting and receiving data, corresponding to different counterparts, and determining whether or not the maintenance output from the monitoring means 40 and the data transmission of the counterpart station are transmitted to the data transmission means 20. Monitoring to determine whether the data received through the data selection means 30, the data selection means 30 and the data connection line corresponds to the maintenance data corresponding to its own station, and transmits the corresponding response data. Maintenance data transmission device in the transmission equipment, characterized in that consisting of means (40). The data selection means (30) according to claim 1, wherein said data selecting means (30) is adapted to block transmission data according to a result of the logical operation of the data transmitted and received from the other station and the received data through the monitoring means (40). A transmission decision unit 31b for determining whether to transmit transmission data to the other station by ORing the data transmission block 31a and 32a and the logical operation of the data transmission block 31a and 32a and the external data selection data. , 32b) maintenance data transmission apparatus in the transmission equipment. The transmission data blocking unit (31a, 32a) according to claim 1 or 2 and the three-state buffer (31a ₁ , 32a ₁ ) for buffering and outputting the received data according to the control of the received data; And pull-up resistors R1 and R2 for pulling up signals through the three-state buffers 31a ₁ and 32a ₁ , data received through the pull-up resistors R1 and R2, and received through the data transmission means 20. OA gates 31a ₂ and 32a _{2 for} logically summing and outputting the data, and AND gate 31a ₃ for logically multiplying the output data through the OA gates 31a ₂ and 32a ₂ and the data through the monitoring means 40. , 32a ₃ ) maintenance data transmission apparatus in the transmission equipment, characterized in that consisting of.