KR200351541Y1 - Sender and receiver device for protection communication line - Google Patents

Abstract

The present invention relates to a communication line protection transmission and reception device for an industrial system operated in a ship, etc. In the related art, an industrial system operated in a ship or the like is connected to a communication line composed of a single line of independent stations. If any of the stations were not available due to a failure, the entire system would go down, affecting the communication line. In other words, even if any one of several independent stations fails, the failed station is always connected to the communication line. The phenomenon of down occurred.

Therefore, the present invention, by placing a transceiver for protecting the communication line between a number of stations independent of the communication line, if any one of the stations of the industrial system operating in ships, such as failure due to failure separate only that station from the communication line The present invention provides a communication line protection transceiver for eliminating the inconvenience of having to reconfigure a communication line suitable for the changed communication method even if the communication method of the system is changed.

Description

Transmitter and receiver for communication line protection {SENDER AND RECEIVER DEVICE FOR PROTECTION COMMUNICATION LINE}

The present invention relates to a communication line protection transceiver for industrial systems operating in ships and the like.

In particular, by placing a transceiver for protecting the communication line between several stations independent of the communication line, if one of the stations cannot be used due to a failure, only the station is separated from the communication line, thereby affecting the communication of other stations. The present invention relates to a communication line protection transmission and reception device that does not provide a signal.

In general, an industrial system operating in a ship or the like is connected to a communication line composed of several independent stations. If any one of the independent stations cannot be used due to a failure, it affects the communication line. The whole system went down.

In other words, even if any one of several independent stations fails, the failed station is always connected to the communication line. The phenomenon of down occurred.

For example, in the case of the separation method for electrical insulation as shown in Figure 1, the communication frequency is determined due to the impedance of the transformer (T),

This means that if one station fails, electrical insulation can be separated but not from the communication line. Therefore, the communication method of the system must be changed, but the communication line suitable for the changed communication method must be reconstructed. This has been brought about.

Therefore, in order to solve such a conventional problem, the present invention locates a communication line protection transmission and reception device between several communication lines and independent stations, so that any one of the stations of an industrial system operated in a ship is not used due to a failure. If this is not possible, the purpose is to separate only the station from the communication line so as not to affect the communication of other stations.

In addition, even if the communication method of the system is changed to solve the inconvenience of having to reconfigure the communication line suitable for the changed communication method.

1 is an example showing a separation state of a communication line through electrical insulation in the prior art.

Figure 2 is a block circuit diagram showing the configuration of a communication line protection transmission and reception apparatus applied to the present invention.

3 is a waveform diagram of the RTS signal applied by the station in the transmission and reception apparatus according to the present invention, b is an output waveform diagram of the system control unit according to the RTS signal.

Figure 4a is a waveform diagram of the RESET signal applied by the station in the transmission and reception apparatus applied to the present invention, b is an output waveform diagram of the system control unit according to the RESET signal.

Hereinafter, the present invention will be described based on the accompanying drawings.

2 is a block circuit diagram showing the configuration of a communication line protection transmission and reception apparatus applied to the present invention.

3 is a waveform diagram of the RTS signal applied by the station in the transmission and reception apparatus according to the present invention, and b is an output waveform diagram of the system controller according to the RTS signal.

4A is a waveform diagram of a RESET signal applied by a station in the transmission and reception apparatus according to the present invention, and b is an output waveform diagram of a system controller according to the RESET signal.

As shown in Figure 2, the transmission and reception drive means for driving to transmit and receive each station of the industrial system operating in the ship, etc .;

First and second contact switches 20A and 20B for driving on / off switching to enable transmission and reception of a station and a communication bus according to the operation of the transmission and reception drive means 10;

A buffer 30A for toggling the transmission and reception of the transmission and reception drive means 10 according to the RTS (Ready to Send) signal inputted during normal operation of the station, wherein the RTS signal according to the failure of the station Control signal of a certain level (e.g. HIGH or LOW) to separate the communication line of the station according to fault pulse or reset signal Transmitting and receiving control means 30 for outputting;

A control signal of a predetermined level output from the transmission and reception control means 30 Switching control means (40) for controlling the on / off switching operation of the first and second contact switches (20A) (20B) so as to separate the communication line of the station where the failure has occurred; It consists of.

In addition, the transmission and reception drive unit 10 is a first and second transmission and reception unit 10A which is converted to a TTL (Transister-Transister Logic Circuit) level to enable transmission and reception of communication lines according to the toggle control of the transmission and reception control means 30. ) (10B),

The first transceiver 10A receives data (SS-) of the station when each station of the system operates normally, and then transmits the communication bus (S1) through the second transceiver 10B and the first contact switch 20A. -) (S2-),

The second transceiver 10B receives data (S1 +) (S2 +) of the communication bus when each station of the system operates normally, and then transmits the data through the second contact switch 20B and the first transceiver 10A. Characterized in that the transmission to the station (SS +).

In addition, the switching control means 40 includes: a reset switch (SW1) which always performs on-switching operation but performs off-switching operation by manual operation to forcibly operate the communication line protection transceiver;

A switching signal according to the switching drive of the reset switch SW1 and a control signal of a predetermined level output in accordance with the state of the station by the system control means 20B ( (XOR) 40A for computing the logical OR as the exclusive OR;

A transistor (Q1) for driving on / off in accordance with an operation result output from the exclusive OR gate (40A);

Relay on / off switching of the first and second contact switches 20A and 20B to control the on / off switching of the communication line of the station in which the failure occurs in accordance with the on / off driving of the transistor Q1. A relay switch RL; It is to include.

Here, the control signal of a predetermined level output from the system control means 30 ( ) Is determined by the time constant of the resistor (VR1) and condenser (C1),

The control signal ( ) Period is longer than the period of the RTS signal depending on the time constant of the resistor VR1 and the capacitor C1.

Hereinafter, reference numerals R1 and R2 which are not described are resistors.

Referring to Figures 2 to 4 attached to the operation of the communication line protection transceiver device of the present invention configured as described above are as follows.

First, when each station of the industrial system operating in a ship, etc. is operating normally, each station outputs a predetermined period of the RTS signal to the transmission and reception control means 30 as shown in Figure 3a.

In the transmission / reception control means 30, a control signal of a low level for a predetermined period as shown in FIG. ) Is output to the switching control means 40,

In the exclusive OR gate 40A included in the switching control means 40, a low level control signal ( ) And the switching signal according to the on-switch driving of the reset switch SW1 are calculated by an exclusive logical sum, and then a high level operation signal is applied to the base of the transistor Q1 through the resistor R2.

Accordingly, the transistor Q1 is driven on in accordance with a high level operational signal applied to the base, and the relay switching drive of the relay switch RL is turned on in response to the on driving of the transistor Q1.

At this time, since the first and second contact switches 20A and 20B perform on-switching driving according to the on-relay switching driving of the relay switch RL, each of the industrial systems by the transmitting and receiving driving means 10 The station transmits and receives.

That is, the transmission and reception drive unit 10 includes first and second transmission and reception units 10A and 10B which are converted to a TTL level so as to be toggle controlled by the butter 30A included in the transmission and reception control means 30. bar,

When each station of the industrial system is in normal operation, the first transceiver 10A receives the data SS- of the station and then transmits the data through the second transceiver 10B and the first contact switch 20A. Send to S1-) (S2-),

The second transceiver 10B receives the data S1 + and S2 + of the communication bus and transmits the data to the station SS + of the system through the second contact switch 20B and the first transceiver 10A. Will be.

On the other hand, if any one of each station of the industrial system operating in the ship, such as in Figure 3a occurs, the faulty station outputs the RTS signal that the defect occurs as shown in Figure 3a to the transmission and reception control means 30 Let's go.

In the transmission / reception control means 30, as shown in FIG. 3B, a high level control signal for separating the communication line of the failed station according to the RTS signal inputted by the occurrence of a defect due to a failure ( ) Is output to the switching control means 40,

The exclusive OR gate 40A included in the switching control means 40 inputs a high level control signal ( ) And the switching signal according to the on-switch driving of the reset switch SW1 are calculated by an exclusive logical sum, and then a low-level operation signal is applied to the base of the transistor Q1 through the resistor R2.

Accordingly, the transistor Q1 is driven off according to the low level operation signal applied to the base, and the relay switching drive of the relay switch RL is turned off according to the off drive of the transistor Q1.

At this time, since the first and second contact switches 20A and 20B perform the off-switching operation according to the off-relay switching driving of the relay switch RL, communication in the industrial system by the transmission / reception driving means 10 is performed. The transmission and reception of the failed station over the line is separate.

Here, the control signal of a predetermined level output from the system control means 30 ( ) Is determined by the time constant of the resistor VR1 and the capacitor C1, the control signal ( ) Is generated longer than the period of the RTS signal according to the time constants of the resistors VR1 and C1.

If the user manually turns off the reset switch (SW1) which always switches on while the station of the industrial system is operating normally,

In the exclusive OR gate 40A included in the switching control means 40, a low level control signal ( ) And the switching signal according to the off-switching operation of the reset switch SW1 are applied to the base of the transistor Q1 through the resistor R2 after calculating the exclusive logic sum.

The transistor Q1 is off-driven according to a low level operational signal applied to the base, and the relay switch RL is first and second contact switches 20A and 20B according to the off-drive of the transistor Q1. Since the relay switching drive to turn off), in the industrial system by the transmission and reception drive means 10 it is possible to disconnect any station communication line even if a failure does not occur in each station.

Further, when the failed station inputs the reset signal as shown in FIG. 4A to the transmission / reception control means 30, the transmission / reception control means 30 controls the high level as shown in FIG. 4B according to the reset signal input. signal( ) Is output to the switching control means 40,

If any one of the stations of the industrial system operated in ships, etc. is not available due to a failure, only that station is to be separated from the communication line, the same as the above described operation is omitted so that duplicate description.

As described above, the present invention locates a transmission / reception device for protecting a communication line between a plurality of stations independent of the communication line, so that only one station is communicated when one of the stations of an industrial system operated by a ship cannot be used due to a failure. Separating from the line does not affect the communication of other stations, and it is effective to solve the inconvenience of having to reconfigure the communication line suitable for the changed communication method even if the communication method of the system is changed.

Claims (4)

Transmission and reception drive means for driving transmission and reception of each station of an industrial system operated in a ship or the like; First and second contact switches for on / off switching driving to enable transmission and reception of a station and a communication bus according to the operation of the transmission and reception drive means; Each station of the system includes a buffer for controlling the transmission and reception of the transmission and reception drive means according to the RTS signal input during normal operation, the communication line of the station according to the missing pulse or reset signal of the RTS signal due to the station failure Transmission and reception control means for outputting a control signal of a predetermined level for separation; Switching control means for controlling the on / off switching operation of the first and second contact switches to disconnect the communication line of the station where a failure occurs according to a control signal of a predetermined level output from the transmission and reception control means; Transmission line transmission and reception device, characterized in that consisting of. According to claim 1, wherein the transmission and reception drive means, the first and second transmission and reception unit which is converted to the TTL level to enable transmission and reception of the communication line according to the toggle control of the transmission and reception control means, The first transceiver receives the data of the station when each station of the system operates normally and transmits it to the communication bus through the second transceiver and the first contact switch, And the second transceiver transmits and receives the data of the communication bus when each station of the system operates normally, and then transmits the data to the station of the system through the second contact switch and the first transceiver. 2. The apparatus of claim 1, wherein the switching control means comprises: a reset switch for always on-switching driving and performing off-switching driving by manual operation to forcibly operate the communication line protection transceiver; An exclusive logic sum gate for computing a switching signal according to the switching operation of the reset switch and a control signal of a predetermined level output according to the state of the station by the system control means with an exclusive logic sum; A transistor for driving on / off in accordance with an operation result output from the exclusive OR gate; A relay switch controlling the on / off switching of the first and second contact switches by relay switching to disconnect the communication line of the station where the failure occurs according to the on / off driving of the transistor; Transmission line transmission and reception device, characterized in that comprising a. According to claim 1, wherein the control signal of a predetermined level output from the system control means is determined by the time constant of the resistor and the capacitor, And a period of the control signal is longer than a period of the RTS signal according to a time constant of a resistor and a capacitor.