KR101959190B1 - Connecting apparatus for substation and remote terminal unit - Google Patents

Abstract

The present invention relates to a connection apparatus for a substation facility and an RTU, comprising: a transmission side connection device connected to one between a substation facility and an RTU monitoring the substation facility, in accordance with a type of information to be transmitted; and a reception side connection device connected to the other, to which the transmission side connection device is not connected, between the substation facility and the RTU. The transmission side connection device and the reception side connection device are communicatively connected to each other through an optical cable.

Description

[0001] DESCRIPTION [0002] CONNECTION APPARATUS FOR SUBSTATION AND REMOTE TERMINAL UNIT [0003]

More particularly, the present invention relates to a substation of an industrial site and a remote terminal unit (RTU) for monitoring and controlling the substation by means of an optical cable ) And a connecting device for an antenna.

In general, the SCADA (Supervisory Control and Data Acquisition) system is used to monitor the state of facilities (eg, substation facilities) of each site in order to operate the increasingly advanced industrial facilities economically and efficiently. : Remote Terminal Unit) is installed, and the central control room and the RTU device are connected by communication.

That is, the RTU device is used as a remote control module in a Scada system of a power control system.

However, if the I / O contacts are distant from the worst-case industrial environment, it is necessary to install a long length of wiring (eg, control cable) between each facility (eg substation) and Altium for control I / There is a problem that a failure can occur due to an inflow of noise due to an increase in length.

In addition, there is a problem in that the wiring period for installing the existing facilities (for example, the substation) and the wiring between Altium (for example, the control cable) is long and the wiring cost for the installation is large according to the number of I / O contacts .

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2015-0000932 (published on May 1, 2016, Network Interface-based Input / Output Expanded Redundant Alti-System).

According to one aspect of the present invention, there is provided a method of controlling a transmission line in an industrial field and a remote terminal unit (RTU), which is a device for monitoring and controlling the transmission line, (Optical cable), and a connecting device for an alternating current.

According to an aspect of the present invention, there is provided a connection apparatus for a substation and an access network, the connection apparatus comprising: a transmission side connection unit connected to either a substation and an Altium monitoring substation according to a type of information to be transmitted; And a receiving-side connecting device connected to the power-transmitting equipment and the other one of the plurality of antennas not connected to the transmitting-side connecting device, characterized in that the transmitting-side connecting device and the receiving- .

In the present invention, when the transmission side connection device is connected to the substation installation and the reception side connection device is connected to the Altium, the transmission side connection device transmits a state signal of the contact point of the substation to an electric signal Converts the optical signal into an optical signal, and transmits the optical signal to the receiving-side connecting apparatus connected to the altitude via an optical cable. The receiving-side connecting apparatus receives the transmitted status signal, And outputs it to the altitude.

In the present invention, the transmission-side connection device may include: a contact point connection unit connecting each contact point of the substation to each terminal and receiving a state signal of each contact point; A signal level converter for converting a level of the status signal of each contact point to a predetermined level; A signal buffer unit for storing status signals of respective contact points converted into a predetermined level through the ring-based units according to the signal levels in parallel; A control unit for reading the status signals of the respective contact points stored in parallel in the signal buffer unit at predetermined time units and outputting the read signals in a serial form; And an all-optical converter for converting the status signal of each contact point outputted in serial form through the controller into an optical signal and outputting the optical signal to the receiving-side connecting apparatus through an optical cable.

In the present invention, the signal level conversion unit may include a surge arrester, a status display LED, and a test jumper.

In the present invention, the signal level conversion unit converts the signal level of the state signal of each of the connection points from 48V to 5V in an electrically insulated state.

In the present invention, the receiving-side connecting device may include a photoelectric conversion unit for converting a status signal of each contact point of the power transmission facility, which is transmitted in the form of an optical signal, through an optical cable in the transmitting-side connecting device into an electric signal; A controller for sequentially reading the state signals of the respective contact points output in serial form through the photoelectric conversion unit and storing the read state signals in parallel in the signal buffer unit; And a signal level converter for restoring the level of the status signal of each contact point stored in the signal buffer unit to a predetermined level and outputting the level signal to the Alti channel through an output connector.

In the present invention, the signal level conversion unit may restore the signal level of the state signal of each of the contact points from 5V to 48V in an electrically insulated state.

In the present invention, the signal level conversion unit may include a status display LED capable of displaying a signal level conversion state.

According to an aspect of the present invention, there is provided a method of controlling a transmission system including an industrial facility and a connection device for connecting an RTU, which is an apparatus for monitoring and controlling the transmission facility, to an optical cable, ), It is possible to shorten the work period for laying wiring between the substation of each site and Altium, and reduce the wiring cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary diagram showing a schematic configuration of a substation apparatus and a connection apparatus for an altitude according to an embodiment of the present invention; FIG.
Fig. 2 is an exemplary diagram showing a more specific configuration of the transmission-side connection device in Fig. 1; Fig.
Fig. 3 is an exemplary diagram showing a more specific configuration of the receiving-side connecting device in Fig. 1; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a substation apparatus and a connection apparatus for an altitude according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is an exemplary diagram showing a schematic configuration of a connection apparatus for a power transmission facility and an Altius according to an embodiment of the present invention. Referring to FIG.

1, the substation apparatus and the connection apparatus for Altium according to the present embodiment include a transmission side connection apparatus 100 connected to the substation 10 at each site, Side connection device 200 connected to the antenna 20 for monitoring the antenna 20 of the receiving side.

However, the transmission-side connection device 100 and the reception-side connection device 200 may be installed in different positions according to the type of information to be transmitted (e.g., status information, control information, etc.). For example, the transmitting-side connecting device 100 may be connected to the Altium 20, and the receiving-side connecting device 200 may be connected to the substation 10 of each site.

Here, a cable (e.g., a surveillance cable) connected between the substation 10 and the transmission-side connection apparatus 100 is connected to a contact point (or a surveillance point) of the substation 10 (e.g., 16 points 32 points in total).

However, since the length of the cable can be made very short compared to the conventional one (for example, the conventional distance: about 50 m, the distance of the present embodiment: about 5 m), the possibility of the noise being introduced through the cable is very low .

The receiving-side connecting device 200 may be included in the inside of the Altium 20 or may be connected to the Altium 20 using a short cable (for example, 5 m or less) .

On the other hand, the transmission-side connection device 100 and the reception-side connection device 200 are connected using an optical cable. At this time, the number (number of strands) of the optical cables can be greatly reduced (for example, maximum 1 strand) compared to conventional cables (for example, surveillance cables). However, it is not intended to limit the number of optical fibers (number of strands), and it may be implemented with two (strands) or more for safety against accident such as disconnection or for stability.

Accordingly, the transmission-side connection apparatus 100 converts the status signal (electric signal) of the contact point (or the monitoring point) (for example, 32 points) of the substation 10 into an optical signal, Side connection device 200 connected to the receiving side connection device 200 so that the receiving side connection device 200 converts the transmitted status signal (optical signal) back into an electrical signal, , Thereby allowing the internal monitoring module (not shown) of the Altium 20 to monitor the substation 10.

For reference, the Altium 20 is driven using a 48 V power supply.

Fig. 2 is an exemplary diagram showing a more specific configuration of the transmission-side connection device in Fig.

2, the transmission-side connection apparatus 100 according to the present embodiment includes a contact point connection unit 110, a signal level conversion unit 120, a signal buffer unit 130, a control unit 140, And an all-optical converting unit 150. [

The contact point connection unit 110 connects the contact point (or 32 points) of the substation 10 to each terminal and outputs a status signal (electric signal) of each contact point Receive input.

The signal level conversion unit 120 converts the level (e.g., 48V) of the status signal (electric signal) of each contact point (or the monitoring point) to a predetermined level (e.g., 5V).

Signal processing is facilitated through the level conversion of the status signal and noise can be removed through the signal level conversion unit 120. When the signal level is converted (for example, 48V to 5V) Insulated.

In addition, the signal level converter 120 may further include a surge arrester, a status indicator LED (light emitting diode), and a test jumper.

The signal buffer unit 130 buffers the status signals (electrical signals) of each contact point (or monitoring point) converted to a predetermined level (for example, 5V) through the ringing unit 120 according to the signal level. That is, state signals (electric signals) of the respective contact points (or monitoring points) (for example, 32 points) are stored in the signal buffer unit 130 in parallel.

The control unit 140 may supply a status signal (electric signal) of each contact point (or a monitoring point) (for example, 32 points) of the substation 10 stored in parallel in the signal buffer unit 130 to a predetermined time unit (For example, 1 ms) (that is, read), and outputs the serial data.

The electrical converter 150 converts the status signal (electric signal) of each contact point (or a monitoring point) (for example, 32 points) of the substation 10, which is converted into a serial form through the controller 140, And outputs the optical signal to the receiving-side connecting apparatus 200 through the optical cable.

Fig. 3 is an exemplary diagram showing a more specific configuration of the receiving-side connecting apparatus in Fig. 1; Fig.

3, the receiving-side connecting apparatus 200 according to the present embodiment includes a photoelectric conversion unit 210, a control unit 220, a signal buffer unit 230, a signal level conversion unit 240, Output connector 250.

The photoelectric conversion unit 210 outputs a status signal (for example, 32 points) of each contact point (or a monitoring point) (for example, 32 points) of the power transmission facility 10 that is transmitted in the form of an optical signal through an optical cable in the transmission- Optical signal), converts it into an electric signal, and outputs it.

The control unit 220 sequentially outputs status signals (electrical signals) of respective contact points (or monitoring points) (for example, 32 points) of the substation 10, which are output in serial form through the photoelectric conversion unit 210, (That is, decoded) and stores it in the signal buffer unit 230.

The signal buffer 230 buffers the status signals (electric signals) of the respective contact points (or monitoring points) output at a predetermined level (eg, 5 V) from the controller 220. That is, status signals (electric signals) of respective contact points (or monitoring points) (for example, 32 points) of the substation 10 are stored in parallel in the signal buffer unit 230.

The signal level converter 240 may be configured to determine the level (e.g., 5 V) of the status signal (electric signal) of each contact point (or the monitoring point) of the substation 10 stored in the signal buffer unit 230 Level (for example, 48V).

At this time, the signal level converting unit 240 electrically insulates the signal level of the status signal (for example, 5V to 48V). In addition, the signal level converting unit 240 may further include a status display LED.

The signal level conversion unit 240 converts the status signal (electric signal) of each contact point (or monitoring point) of the substation 10 converted (or restored) to the pre-designated level (for example, 48V) The internal monitoring module (not shown) of the Altium 20 monitors the substation 10 by outputting it to the Altium 20 through the network 250.

As described above, according to the present embodiment, it is possible to prevent the inflow of noise (surge) through a connection device that allows an industrial facility's substation and an RTU, which is a device for monitoring and controlling the substation, to be connected by an optical cable It is possible to shorten the working period for wiring installation between the substation of each site and the Altium, and to reduce the wiring cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, I will understand the point. Accordingly, the technical scope of the present invention should be defined by the following claims.

10: Substation 20: Altium
100: transmission side connection device 110: contact point connection part
120: Signal level conversion unit 130: Signal buffer unit
140: control unit 150:
200: receiving-side connecting device 210: photoelectric conversion unit
220: control unit 230: signal buffer unit
240: signal level converter 250: output connector

Claims (8)

A transmission side connection device connected to any one of a power transmission facility and an alternate for monitoring the power transmission facility according to the kind of information to be transmitted; And
And a receiving-side connecting device connected to the other one of the power transmission facilities and the alternating-current connecting device not connected to the transmission side connecting device,
The transmission side connection device and the reception side connection device are communicatively connected to each other through an optical cable,
When the transmission side connection device is connected to the power transmission equipment and the reception side connection device is connected to the Altium,
Wherein the transmission side connection device converts the state signal of the contact point of the substation into an optical signal from an electric signal and transmits the optical signal to the reception side connection device connected to the Alti side via an optical cable,
Wherein the receiving-side connecting device receives the transmitted status signal, converts the optical signal back into an electrical signal, and outputs the electrical signal to the altimeter,
The transmitting-side connecting apparatus includes:
A contact point connection unit connecting each contact point of the substation to each terminal and receiving a state signal of each contact point;
A signal level converter for converting the level of the status signal of each contact point to a predetermined level;
A signal buffer unit of the transmission side access device for storing in parallel the status signals of the respective contact points converted into the predetermined level through the signal level conversion unit of the transmission side connection device;
A control unit of the transmission side connection device which reads the status signal of each contact point stored in parallel in the signal buffer unit of the transmission side connection device at a predetermined time unit and outputs it in a serial form; And
And an all-optical converter for converting a status signal of each contact point, which is output in a serial form through a control unit of the transmission-side connection device, into an optical signal and outputting the optical signal to the reception-
The receiving-
A photoelectric conversion unit for converting a state signal of each contact point of the power transmission facility, which is transmitted in the form of an optical signal, through the optical cable in the transmission side connection device into an electrical signal;
A control unit of a receiving side connection unit for sequentially reading the status signals of the respective contact points output in serial form through the photoelectric conversion unit and storing the read signals in parallel in the signal buffer unit of the receiving side connection device; And
And a signal level converter for restoring the level of the status signal of each contact point stored in the signal buffer unit of the receiving-side connecting device to a predetermined level and outputting the Alti channel via the output connector Features a transformer and an accessory for an Altium.
delete delete The apparatus according to claim 1, wherein the signal level converter of the transmitting-
A surge arrester, a status display LED, and a test jumper.
The apparatus according to claim 1, wherein the signal level converter of the transmitting-
Wherein the signal level of the state signal of each contact point is converted from 48V to 5V in an electrically insulated state.
delete The apparatus according to claim 1, wherein the signal level converting unit of the receiving-
Wherein the signal level of the state signal of each contact point is recovered from 5V to 48V in an electrically insulated state.
The apparatus according to claim 1, wherein the signal level converting unit of the receiving-
And a status display LED capable of displaying a signal level conversion state.

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