KR200403625Y1 - Units of communication system having duplex control signal - Google Patents

Abstract

The present invention is a unit that performs a main function in a communication system, in order to perform the redundancy control function of the communication system in the conventional high or low level method The present invention relates to a communication system unit and a redundant control signal transmission / reception method for improving reliability of a product by eliminating the level instability of a control signal generated by mounting a neighboring unit by implementing a message method.

Description

Unit of communication system having duplex control signal

The present invention relates to a redundancy control device used for the purpose of securing the reliability of a communication system in a unit performing a main function in a communication system, and more particularly, to perform the redundancy control function between units. Communication redundancy control that improves the reliability of the product by eliminating the level instability of the control signal generated when the adjacent unit is mounted by implementing the redundant control signal transmitted and received as a message method in the conventional high or low level method. A communication system unit having a signal.

As is well known, a communication system includes a plurality of units.

1, the main part of a conventional general communication system is shown.

As shown, it is composed of a switching control unit 10, a unit A (20), a unit B (30) and the line connecting portion 40,

The transfer control unit 10 transmits a system control signal (transfer control signal) to the unit A 20 and the unit B 30, and the unit A 20 and the unit B 30 perform a redundancy function. The redundant control signal is transmitted and received to each other.

The redundancy control signal is composed of an active (ACTIVE_IN) signal and an active out (ACTIVE_OUT) signal.

In addition, the unit A (20) and the unit B (30) are respectively connected to the line connecting portion 40, and selectively switched by the system control signal of the transfer control unit 10, the line signal A through the line connecting portion 40 Alternatively, the line signal B is transmitted as a line signal.

In the communication system configured as described above, the redundancy control signal, i.e., the active (ACTIVE_IN) signal and the active out (ACTIVE_OUT) signal, is composed of high or low level signals. When threading adjacent units, the level of the redundancy control signal becomes unstable at the moment of thread mounting.

The reason for this is that since the redundant control signal is a high or low level signal, when a unit is mounted or detached, a momentary surge voltage is generated by a power supply, and thus an error is likely to occur. This led to instability of the communication system.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a redundancy control signal transmitted and received between units in order to perform a redundancy control function of a communication system in a conventional high or low level method. The present invention provides a communication system unit having a redundant control signal that improves the reliability of a product by eliminating the level instability of a control signal generated at the moment of mounting or detaching an adjacent unit by implementing a message method.

The present invention for achieving the above object is a plurality of units for transmitting and receiving a redundancy control signal between each other to perform a redundancy function, and a switching control unit for transmitting and receiving a system control signal (transfer control signal) to the units A communication system comprising: a signal receiving unit for receiving a redundancy control signal from a counterpart (adjacent) unit; A FAIL signal discriminating unit for determining whether the redundant control signal input from the signal receiving unit is a CHECK signal; A FAIL signal discriminating unit which determines whether the redundancy control signal input from the signal receiving unit is a FAIL signal; An OR gate which receives the output of the CHECK signal discrimination unit and the output of the FAIL signal discrimination unit and performs an OR operation on the output; A determination unit configured to perform a predetermined output when the value output from the OR gate is three or more times within a predetermined time period and to apply a reception unit signal of a transfer control unit; A D-FF for signal-processing the output signal of the determination unit and outputting a transfer control signal to the transfer control unit 10; A CHECK signal generation unit which receives the transmitter signal and the clock signal of the transfer control unit and generates and outputs a CHECK signal; A FAIL signal generator for receiving a transmitter signal and a clock signal of the transfer control unit to generate and output a FAIL signal; A signal selector configured to alternately receive the output signals of the CHECK signal generator and the FAIL signal generator, and to further output a fault state display signal; And a signal transmitter for transmitting the output of the signal selector to an adjacent unit.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention in more detail.

2 is a circuit block diagram showing a detailed configuration of a communication system unit according to an embodiment of the present invention.

As shown, the communication system unit 100 according to the present invention is a signal receiving unit 110, CHECK signal discriminating unit 111, FAIL signal discriminating unit 112, OR gate 113, determination unit 114, A D flip-flop (D-FF) 115, a CHECK signal generator 121, a FAIL signal generator 122, a signal selector 123, and a signal transmitter 124 are included.

The signal receiver 110 is a circuit for receiving a redundancy control signal from a counterpart (adjacent) unit, and the redundancy control signal is an active (ACTIVE_IN) signal and an active out (ACTIVE_OUT) signal.

The ACTIVE_IN and ACTIVE_OUT signals, which are the redundancy control signals, become a message (data) signal composed of a CHECK signal or a FAIL signal.

According to the present invention, the CHECK signal is data transmitted by the right when the unit is normal, and maintains the current state when the unit receives the CHECK signal.

In addition, the FAIL signal is data to be transmitted when a unit fails.

The CHECK signal discriminating unit 111 is a circuit for determining whether the redundancy control signal input from the signal receiving unit 110 is a CHECK signal.

The FAIL signal discriminating unit 112 is a circuit for determining whether the redundancy control signal input from the signal receiving unit 110 is a FAIL signal.

The OR gate 113 is a circuit that receives an output of the CHECK signal discrimination unit 111 and an output of the FAIL signal discrimination unit 112 and performs OR operation on the output.

The determination unit 114 is a circuit that performs a predetermined output when the value output from the OR gate 113 is three or more times within a predetermined time, and the determination unit 114 includes a switching controller 10 (see FIG. 1). And a receiving part signal (reset signal) is applied.

The D flip-flop (D-FF) 115 is a circuit that processes the output signal of the determination unit 114 and outputs a transfer control signal to the transfer control unit 10.

The CHECK signal generator 121 is a circuit that receives the transmitter signal (reset signal) and the clock signal (M × N kbps) of the transfer control unit 10 to generate and output a CHECK signal.

The FAIL signal generator 122 is a circuit that receives a transmitter signal (reset signal) and a clock signal (M × N kbps) of the switching controller 10 and generates and outputs a FAIL signal.

The signal selector 123 is a circuit which receives the output signals of the CHECK signal generator 121 and the FAIL signal generator 122 and outputs them alternatively. The signal selector 123 has a fault state display signal. It is configured to be further input.

The signal transmitter 124 is a circuit for transmitting the output of the signal selector 123 to an adjacent unit.

According to the present invention configured as described above, if the FAIL signal or the CHECK signal is not received three times or more from the adjacent unit for a predetermined time, the unit becomes active when the state of the unit is normal and transmits the CHECK signal.

On the other hand, a non-active unit transmits a CHECK signal when the unit is in a normal state and a FAIL message when it is abnormal. The active unit sends a FAIL message in case of failure.

3 is a control flowchart illustrating a duplex control signal transmission and reception method of a communication system unit according to the present invention.

As shown, it is determined whether the unit is normal (S11), and if the unit is not normal (in case of failure) in the determination step (S11) and transmitting a FAIL signal (message) and If the unit is normal in the determining step S11, determining whether the corresponding unit is in a non-active state (S13); and in the determining step (S13), the unit is inactive. If it is not in the ACTIVE state, that is, in the ACTIVE state, determining whether or not the FAIL signal has been received from the counterpart unit three times or more within a predetermined time (S14); If it is not received in the above step, it is determined whether a check signal has been received from the counterpart unit (S15), and if the check signal is received from the counterpart unit in the determination step (S15), the program is returned and If the CHECK signal has not been received or if the FAIL signal has been received from the counterpart unit three or more times in the determination step (S14), the unit is switched (or maintained) to the ACTIVE state (S16), and the step After step S16, if it is determined that the unit is in a non-active state in the step S17 of transmitting the CHECK signal to the counterpart unit and the determination step S13, it is determined whether the corresponding unit is settled. And outputting a FAIL signal when the unit is abnormal (S12), and outputting a CHECK signal when the unit is normal (S18).

The operation of the present invention configured as described above will be described below.

First, when the system is operated, it is determined whether the corresponding unit is normal by receiving the transmission signal of the transfer control unit 10 (S11), and if the corresponding unit is not normal (in case of failure), the FAIL signal generator 122 The FAIL signal is generated through the signal selector 123 and the signal transmitter 124 to transmit a FAIL signal (message) to the adjacent unit (S12).

However, if the corresponding unit is normal in the determination S11, it is determined whether the corresponding unit is in the non-active state (S13), and if the unit is not in the non-active state, that is, the signal receiving unit ( If the signal input through the 110 is active (ACTIVE_IN) state through the CHECK signal generator 111, FAIL signal generator 112, OR gate 113 and the determination unit 114 to send a FAIL signal from the counterpart unit If it has received more than 3 times within a certain time, or if it has not received the FAIL signal from the other unit more than 3 times, it has received CHECK signal from the other unit, if it has received the CHECK signal from the other unit, it returns the program and does not receive the CHECK signal from the other unit. If it fails or receives the FAIL signal 3 times or more from the counterpart unit, it transmits it to the transfer control unit 10 through the D-FF 115 to activate the unit in the ACTIVE state. Conversion (or maintained), and transmits the signal selection section 123 and the signal transmission unit 124 generates a signal through the CHECK CHECK signal generating unit 121, a CHECK signal to the external unit (S14 ~ S17).

In this state, if the unit is non-active, it is determined whether the unit is normal. If the unit is abnormal, it outputs a FAIL signal (S12), and if the unit is normal, it checks. Outputs (S18).

As described above, according to the present invention, in a unit performing a main function in a communication system, a conventional high or low signal of a redundancy control signal transmitted and received between units in order to perform a redundancy control function of a communication system is provided. ) It is a useful design that improves the reliability of the product by eliminating the level instability of the control signal that occurred at the moment of mounting the adjacent unit by implementing the message method from the level method.

1 is a circuit block diagram showing a configuration of a general communication system;

2 is a circuit block diagram showing a detailed configuration of a communication system unit according to an embodiment of the present invention;

3 is a control flowchart of a communication system unit according to the present invention.

Explanation of symbols on main parts of drawing

100: unit 110: signal receiver

111: CHECK signal discrimination unit 112: FAIL signal discrimination unit

113: OR gate 114: judgment unit

115: D-FF 116: CHECK signal generator

121: FAIL signal generator 122: FAIL signal generator

123: signal selector 124: signal transmitter

Claims (3)

A communication system comprising a plurality of units for transmitting and receiving a redundancy control signal to each other to perform a redundancy function, and a switching control unit for transmitting and receiving a system control signal (switching control signal) to the units, The unit, A signal receiving unit which receives a redundancy control signal from an opponent (adjacent) unit; A FAIL signal discriminating unit for determining whether the redundant control signal input from the signal receiving unit is a CHECK signal; A FAIL signal discriminating unit which determines whether the redundancy control signal input from the signal receiving unit is a FAIL signal; An OR gate which receives the output of the CHECK signal discrimination unit and the output of the FAIL signal discrimination unit and performs an OR operation on the output; A determination unit configured to perform a predetermined output when the value output from the OR gate is three or more times within a predetermined time period and to apply a reception unit signal of a transfer control unit; A D-FF for signal-processing the output signal of the determination unit and outputting a transfer control signal to the transfer control unit 10; A CHECK signal generation unit which receives the transmitter signal and the clock signal of the transfer control unit and generates and outputs a CHECK signal; A FAIL signal generator for receiving a transmitter signal and a clock signal of the transfer control unit to generate and output a FAIL signal; A signal selector configured to alternately receive the output signals of the CHECK signal generator and the FAIL signal generator, and to further output a fault state display signal; And And a signal transmitter for transmitting the output of said signal selector to an adjacent unit. The method of claim 1, And said active (ACTIVE_IN) signal and said active out (ACTIVE_OUT) signal as a redundancy control signal is a message (data) signal composed of a CHECK signal or a FAIL signal. The method of claim 1, The CHECK signal is data transmitted by the unit when the unit is normal, and maintains its current state when the unit receives the CHECK signal, and the FAIL signal is data transmitted when the unit fails. Communication system unit.