KR960008064Y1 - Data interface apparatus - Google Patents

Abstract

No summary

Description

Data interface device

1 is a block diagram showing the connection of the main system and the auxiliary system according to the present invention.

FIG. 2 is a detailed configuration diagram of the light transmission unit shown in FIG.

* Explanation of symbols for main parts of the drawings

11: main system 11A, 12A,... 1NA: optical transmission unit

12, 13,... 1N: Auxiliary System 20: Optical Cable

30: integrated device for optical transmission 31, 32: power supply

33: Data transmission / reception control unit BF1-BF3: Buffer

IV: Inverter AND: End Gate

RTS: Control Signal RXDA: Receive Data

TXDA: Transmit Data

The invention relates to a digital data transmission device, and more particularly, a main system and a plurality of auxiliary systems in an apparatus for transmitting operational data and detected data by interconnecting one main system and a plurality of auxiliary systems such as a protection relay. The present invention relates to a data interface device provided with an optical transmission means, so as to ensure a stable number of transmissions of data through a serial connection.

Conventionally, after connecting a main system and a plurality of auxiliary systems in parallel, predetermined data are transmitted and received between the auxiliary system and the main system through respective transmission lines connected to the main system.

When the data transmission device is located at a close distance between the main system and the auxiliary system, the data transmission device can perform a smooth transmission in a state in which no data loss occurs in the transmission and reception of data transmitted to each other. If the distance is located at a long distance, noise is mixed due to self-resistance of transmission transmission or surrounding radio waves, so that loss and error of transmitted data may occur, thereby preventing accurate data transmission and reception. Since this is connected to an independent transmission line, there is a problem that the surroundings of the system become dirty and an inconvenience in managing the transmission line.

The present invention has been made in view of the above-described problems, and its object is to provide optical transmission means in the main system and each auxiliary system, respectively, so that data can be serially connected to the transmission terminal and the reception terminal of each optical transmission unit. The optical transmission means of the auxiliary system for receiving the output signal received to the auxiliary system optical transmission means of the next step to prevent noise mixed with the transmitted data, and to minimize the resistance generated in the transmission line of the data transmitted and received It is intended to provide reliability.

In order to achieve the above object, the present invention provides a data transmission device between a main system and a plurality of auxiliary systems, each of which includes an optical transmission unit and a data output unit of the optical transmission unit provided in the main system. A terminal is connected to an optical transmission unit input terminal of an auxiliary system having a first priority among the plurality of auxiliary systems through an optical cable, and an input terminal of the optical transmission unit provided in the main system is the final order of the plurality of auxiliary systems. The optical transmission unit output terminal of the auxiliary system having a through the optical cable, and the optical transmission unit output terminal of the auxiliary system having a first priority of the plurality of auxiliary systems to the optical transmission unit input terminal of the lower auxiliary system It is characterized by connecting through the optical cable.

In addition, the optical transmission unit of the present invention converts the optical data applied to the receiving terminal (RX) from the system of the front end via the optical cable to an electrical signal and then analyzes the detected data if it is a signal for controlling its own system Through output terminal OUT, it outputs the operation processing data of the auxiliary system that owns itself, and if the analyzed data is the data for transmission to the auxiliary system of the latter stage, it outputs through the transmission terminal TX, and retains itself. An optical transmission integrated device 30 for outputting data detected by each circuit unit of the auxiliary system to an optical transmission unit held by a later auxiliary system through a transmission terminal TX when a data is to be transmitted to an auxiliary system or a main system of a later stage; And capacitors C1-C4 (C5-C7) which remove noise of the power supply B ⁺ and apply the operating power to the power terminals Vcc1 and Vcc2 of the optical transmission integrated device 30. And data RXDA received from the system at the front end via an optical cable in accordance with a power supply unit 31, 32 consisting of coils L1, L2, and a control signal RTS applied from a control means of the system, or By adjusting the transmission / reception interval of the data to be linked and transmitted to the system of the next stage and the transmission data (TXDA) detected by the own system to be transmitted to the main system side, the collision between the data transmitted and received is prevented and the data transmitted and received are temporarily saved. And buffers BF1-BF3 for outputting the stored data according to the control signal RTS applied to the gate, an inverter IV for inverting the control signal RTS of the system, and an AND gate AND, which is a logic operation means. The transmission / reception control section 33 is characterized by the above-mentioned.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As can be seen in FIG. 1, the present invention is provided with the auxiliary system 12 of the first priority through the optical cable 20 at the optical output terminal of the optical transmitter 11 provided by the main system 11 itself. Connected to the optical input terminal of the optical transmission unit 12A, and the optical output terminal of the optical transmission unit 12A included in the first priority auxiliary system 12 is connected to the second priority via the optical cable 20. It is connected to the optical input terminal of the optical transmission unit 13A of the auxiliary system 13, and the optical output terminal of the optical transmission unit 13A of the second priority auxiliary system is provided through the optical cable 20. 3 is connected to the optical input terminal of the optical transmission unit provided in the priority system.

In this way, the optical output terminal of the optical transmission unit provided in the system of the front end is connected to the optical input terminal through an optical cable, and the optical output terminal is connected to the optical input terminal of the optical transmission unit provided in the system of the rear end via an optical cable. The optical output terminal of the optical transmission unit provided in the system is connected to the optical input terminal of the optical transmission unit provided in the main system.

In addition, as shown in FIG. 2 of the accompanying drawings, the optical transmission unit provided in the main system and each auxiliary system electrically transmits optical data applied to the receiving terminal RX from the system at the front end via the optical cable. After converting the signal into a signal and analyzing it, if it is a signal for controlling its own system, the detected data is output through the output terminal (OUT) as the operation processing data of the auxiliary system owning it, and the analyzed data is the auxiliary system at the rear end. If it is data for transmission, it is output through the transmitting terminal (TX), and when the data detected by each circuit part of the auxiliary system holding itself is to be transmitted to the auxiliary system or the main system of the latter stage, the latter stage is transmitted through the transmitting terminal (TX). a secondary system for output to the optical transmission for holding the integrated optical transmission element 30, a power supply for the light transmission by eliminating the noise of the (B ⁺⁾ A power supply unit 31 (32) consisting of capacitors (C1-C4) (C5-C7) and coils (L1) (L2) applied to the power supply terminals (Vcc1, Vcc2) of the eletric element (30) as an operating power source; According to the control signal (RTS) applied from the control means of the system, the data (RXDA) received through the optical cable from the system at the front end or the data to be transmitted and transmitted to the system at the rear end and detected by the own system to the main system side By adjusting the transmission / reception interval of the transmission data TXDA to be transmitted, it prevents collision of the data transmitted and received, and temporarily stores the data transmitted and received and outputs the stored data according to the control signal RTS applied to the gate (BF1). And a transmission / reception control section 33 comprising an inverter IV for inverting the control signal RTS of the system and an AND gate AND, which is a logic operation means.

An operation of data transmission and reception according to the present invention configured with the functions as described above will be described.

In the optical transmission unit 11A-1NA provided in the main system 11 and each of the auxiliary systems 12-1N, the supply power B ⁺ applied as shown in FIG. The main system 11 is rectified by the C1-C4) C5-C7 and the coils L1 and L2 and is in the standby state of operation applied to the power terminals Vcc1 and Vcc2 of the optical transmission integrated device 30. The optical transmission unit 11A provided therefor for transmitting data for operating each of the auxiliary systems 12-1N, that is, the optical transmission integrated element 30 of the optical transmission unit shown in FIG. When the data for transmission is inputted on the) side, the optical transmission integrated device 30 outputs the transmission data TXDA for transmission to be applied through the transmission terminal TX and temporarily stores the transmission data TXDA in the buffer BF1.

At this time, when the control signal (RTS) for data transmission from the control means of the system is applied to the gate of the buffer BF1, the buffer BF1 is turned on and outputs the AND gate AND of the auxiliary system operation data stored therein. To the auxiliary system 12 of the first priority via the optical cable 20.

The optical transmitter 12A provided in the auxiliary system 12 of the first priority is connected to the optical cable 20 from the optical transmitter 11A of the main system 11, as shown in FIG. If the control signal (RTS) applied to the control means of the system is temporarily stored in the received data (RXDA) applied through the inverted through the inverter IV and applied as the gate signal, the buffer (BF2) is stored sequentially. The received data RXDA is re-stored in the buffer BF3 and applied to the receiving terminal RX side of the optical transmission integrated device 30 in accordance with the gate signal of the ground potential.

The optical transmission integrated device 30 analyzes the data of the received front end system, detects whether it is data required for its auxiliary system, and if it is data for operating itself, the circuit unit side through the output end (OUT). If it is not the data for its own operation, the data received from the system of the front end is output through the transmission terminal TX to be transmitted to the auxiliary system side of the rear end, and temporarily stored in the buffer BF1 and then from the control means of the system. The signal is output in accordance with the gate signal applied to the buffer BF1 and applied to the auxiliary system at the rear end via the optical cable 20.

In addition, the data detected in order to notify the main system 11 after being processed in any auxiliary system is stored in the buffer BF1 through the transmission terminal RX of the optical transmission integrated device 30 and then controlled by the system. It is sequentially output in accordance with the control signal (RTS) applied from the means and transmitted to the system side of the rear stage through the optical cable 20 in the operation described above.

The data transmitted in this way is sequentially transmitted to the main system and the auxiliary system finally connected, and the data detected from each auxiliary system is transmitted through the operation as described above and transmitted to the main system side.

The present invention as described above is connected to the system having the independent optical transmission means in each of the plurality of auxiliary systems connected to the main system in sequence to transfer the operating data of the main system to each auxiliary system side It provides stability of each system by preventing a loss from occurring and transmits the data detected from each auxiliary system to the main system side through a serially connected transmission line, thereby providing reliability in detecting the operation result.

Claims (2)

A data transmission apparatus between a main system and a plurality of auxiliary systems, comprising: an optical transmission unit in each of the main system and the plurality of auxiliary systems, wherein a data output terminal of the optical transmission unit provided in the main system is made of the plurality of auxiliary systems; Connect the optical transmission unit input terminal of the auxiliary system having a first priority through an optical cable, and the input terminal of the optical transmission unit provided in the main system outputs the optical transmission unit of the auxiliary system having the final priority among the plurality of auxiliary systems. The optical cable is connected to a terminal, and the optical transmitter output terminal of the auxiliary system having the first priority among the plurality of auxiliary systems is connected to the optical transmitter input terminal of the lower auxiliary system through the optical cable. Data interface device. The optical transmitter of claim 1, wherein the optical transmitter converts an optical signal applied to a receiver terminal RX from the system at the front end into an electrical signal and analyzes the optical data, and then detects a signal for controlling the system. Outputs the processed data as the operation processing data of the auxiliary system that owns it through the output terminal OUT, and if the analyzed data is the data for transmission to the auxiliary system of the latter stage, outputs it through the transmission terminal TX, and The optical transmission integrated device 30 outputs the data detected by each circuit unit of the auxiliary system having the output to the optical transmission unit held by the auxiliary system at the later stage through the transmission terminal TX. ) And a capacitor (C1-C4) for removing the noise of the supply power (B ⁺ ) and applying it to the power supply terminals (Vcc1, Vcc2) of the optical transmission integrated device 30 as an operating power source. (C5-C7) and coils (L1) (L2) and power supply units (31) and (32), which are received via the optical cable from the system at the front end in accordance with a control signal (RTS) applied from the control means of the system. By adjusting the transmission / reception interval of the data (RXDA) or the data to be co-transmitted to the system of the next stage and the transmission data (TXDA) detected by the own system and to be transmitted to the main system side, it prevents the collision of data transmitted and received. The buffer BF1-BF3 outputs the stored data according to the control signal RTS applied to the gate, the inverter IV for inverting the control signal RTS of the system, and AND gate, which is a logic operation means. A data interface device comprising a transmission / reception control section (33) having an AND.