KR101646070B1 - Circuit for sensing a short on plant - Google Patents

Abstract

The present invention relates to a circuit for detecting a short circuit failure and, more specifically, to a circuit for detecting a short circuit failure, including: a photo-coupler to be connected to a digital input circuit inside a plant; a variable resistor connected to the photo-coupler; and a short circuit failure signal detecting part to determine whether to generate a short circuit of an input/output terminal of the digital input circuit according to light generated from the photo-coupler.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a short-circuit failure detection circuit, and more particularly, to a circuit that can determine whether a short circuit has occurred in a digital input signal line connected to a digital input circuit included in a plant.

The various input / output signal lines installed in the power generation plant are used for a long period of time, and the covering of the electric wire is released. As a result, the signal line may come into contact with the plant equipment. The configurations contained within the power plant use a common ground with the plant, which is treated in common with the power ground of the (distributed control) system contained within the plant. In other words, a ground short fault on the digital input line has the same effect as a digital input line shorted to the system power ground.

1 is a block diagram showing the structure of a digital input module included in a power generation plant. The digital input module contains a digital input circuit and the digital input source power and source power ground, which are connected to the digital input circuit, are connected to the power and ground of the system.

The input mode of the digital input circuit included in the power generation plant is divided into a source mode in which an input signal is generated by an input circuit itself and a sink mode in which a signal generated from an external power source is input. Particularly in source mode, the input signal is generated within the digital input circuit, and the ground of the source power is electrically isolated from the system power ground. The digital input circuit receives the source power and sends it through the anode (DI_P) to the outside, and receives the external contact signal through the cathode (DI_N) again. This short circuit may occur between the anode and the cathode, Lt; / RTI >

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and it is an object of the present invention to detect a fault occurring when a digital input signal line is short-circuited with a ground of a plant system power source in a plant.

According to an aspect of the present invention, there is provided a short-circuit failure detection circuit including a photocoupler connected to a digital input circuit in a plant, a variable resistor connected to the photocoupler, And a short-circuit failure signal detecting unit for judging whether or not short-circuiting of the terminal occurs. In this case, the short-circuit failure signal detection unit may include a light-receiving module for sensing light generated in the photocoupler, calculating a magnitude of a current flowing through the photocoupler using intensity of light sensed by the light- A calculation module for determining whether or not a short circuit is generated, and a memory for storing whether a short circuit has occurred or not and the magnitude of the calculated current determined by the calculation module.

In one embodiment of the present invention, the calculation module determines a current calculated when the variable resistor is adjusted to a size corresponding to the target resistance as a failure determination reference signal, and the memory stores a failure determination reference signal determined in the calculation module Can be stored. At this time, the target resistance is a resistor which is a reference for ground determination in the digital input circuit. For example, the target resistance may be 1? To 100 ?.

According to another embodiment of the present invention, the variable resistance control unit may further include a variable resistance control unit for adjusting the size of the variable resistance according to the operation of the short-circuit failure detection circuit, It can be set as resistance. The variable resistance control unit may adjust the variable resistance to zero during a short-circuit failure detection operation.

The short-circuit fault detection circuit of the present invention may further include a switch between the photo-coupler and the digital input circuit, and when the switch is turned on, the variable resistor control unit may adjust the size of the variable resistor to zero.

According to the present invention described above, it is possible to accurately determine a short circuit occurring at the input terminal or the output terminal of the digital input circuit in the plant.

It is possible to increase the sensitivity of the short-circuit failure detection circuit and to reduce the error caused by the CTR characteristic of the photocoupler.

In addition, it is also possible to automatically detect the occurrence of a short circuit.

1 is a block diagram showing the structure of a digital input module included in a power generation plant.
2 is a circuit diagram showing a short-circuit failure detection circuit according to an embodiment of the present invention.
3 is a diagram illustrating an example in which a short-circuit failure detection circuit according to an embodiment of the present invention is connected to a digital input circuit.
4 and 5 are circuit diagrams showing a short-circuit failure detection circuit according to another embodiment of the present invention.

Hereinafter, a short-circuit fault detection circuit according to the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

The expression " comprising ", on the other hand, merely refers to the presence of the elements as an expression of " open ", and should not be understood as excluding any additional elements.

Also, the expressions such as 'first, second, etc.' are expressions used only for distinguishing a plurality of configurations, and do not limit the order or other features among the configurations.

2 is a circuit diagram showing a short-circuit failure detection circuit according to an embodiment of the present invention.

In the present embodiment, the short-circuit failure detecting circuit may include a photocoupler connected to a digital input circuit in a plant, a variable resistor connected to the photocoupler, and a light source for detecting a short circuit of the input / And a short-circuit failure signal detecting unit for determining the short-circuit failure signal.

The photocoupler includes a light emitting device that transmits an electric signal in the form of light, and the light intensity varies depending on the magnitude of an electric signal, for example, a voltage or a current. The photocoupler may be packaged in a bundle of a light emitting element and a light receiving element, and the light receiving element may exist independently of a separate structure. The present invention includes all such cases. In the following description, it is assumed that the light-receiving element (the light-receiving element exists independently of the photocoupler and exists in the internal configuration of the short-circuit fault signal detection unit) And the case where the short-circuit fault signal detection section determines the short-circuit according to the signal generated in the light-receiving module is also included in the scope of the present invention) An electric signal corresponding to the intensity is generated so that the magnitude of the current flowing through the input and output ends of the digital input circuit to which the photocoupler is connected can be measured.

The variable resistor is connected to the photocoupler, and the magnitude of the current flowing through the photocoupler can be adjusted by adjusting the size of the variable resistor. By using the variable resistor, the sensitivity of the short-circuit failure signal detection section, which will be described later, can be adjusted.

The short-circuit fault signal detection unit is configured to determine whether a short circuit has occurred at the input / output terminal of the digital input circuit using an electrical signal corresponding to the light generated by the photocoupler. A configuration capable of extracting an electrical signal corresponding to light, and a configuration capable of determining whether or not the electrical signal is short-circuited depending on the size of the electrical signal. A digital circuit capable of judging whether or not a short circuit occurs according to the magnitude of the current.

Photocouplers convert the magnitude of the current into the intensity of the light. In practice, widely used photocouplers have a very large error range. That is, when the light intensity corresponding to the magnitude of the current is 100, the light having the intensity of at least 50 to 300 is generated. If this error is large, even if a short circuit does not occur in the input terminal or the output terminal of the actual digital input circuit (for example, several hundred to several thousand ohms are connected), it can be short-circuited.

That is, it is judged that the output terminal is short-circuited only when a specific resistance value (hereinafter referred to as a target resistance) is connected to the output terminal. Due to the error of the current transfer ratio (CTR) characteristic of the photocoupler, Is determined to be equal to or less than a specific resistance value. The above-mentioned target resistance is a resistance which is a reference for ground judgment in the digital input circuit.

In order to solve this problem, the present invention connects a variable resistor to the photocoupler and adjusts the variable resistor to improve the accuracy of short-circuit fault detection. Specific embodiments are described below. Depending on the characteristics of the plant configuration, a resistance of 0 to several hundreds of ohms may be set as the target resistance, and in one embodiment of the present invention, 1 to 100 ohms may be set as the target resistance. This can increase the accuracy of judging whether or not the target is short-circuited when the target resistance is set within the above-mentioned range within the numerical range reflecting the substantial characteristics of the plant configuration.

4 is a circuit diagram showing a short-circuit failure detection circuit according to another embodiment of the present invention. In the present embodiment, the short-circuit failure signal detection unit may include a light-receiving module that detects light generated by the photocoupler, a magnitude of the current flowing through the photocoupler using the intensity of the light sensed by the light- A calculation module for determining whether or not a short circuit occurs, and a memory for storing whether a short circuit is detected or not and the magnitude of the calculated current determined by the calculation module.

The light receiving module generates an electrical signal corresponding to the intensity of light generated in the photocoupler as described above. Generates an electric signal generated by the light receiving module, for example, an electric signal corresponding to the magnitude of the current, and provides the electric signal to the operation module.

The calculation module calculates the magnitude of the current flowing through the input and output terminals of the digital input circuit connected to the photocoupler (or the magnitude of the current flowing through the photocoupler), the magnitude of the resistance generated at the input and output stages, It is determined whether or not a short circuit has occurred.

The operation module senses the magnitude of the current generated in response to the intensity of the light sensed by the light receiving module in the variable resistor control, and calculates the intensity of the current according to the magnitude of the variable resistor. Particularly, the result of judging whether the variable resistor is adjusted to a size corresponding to the target resistance and whether the current is short-circuited or not is stored in the memory so that it can be judged as a short circuit failure when a current corresponding to the target resistor is generated .

In the case of a specific configuration in the plant, for example, a case where a short circuit is judged to occur when the input terminal is connected to 100Ω or less will be described. If the operation module determines the fault reference signal without adjusting the variable resistance, considering that the error range is considered, it can be judged that a resistance much larger than 100Ω is connected to the input terminal even if it is short-circuited. However, when the variable resistor is adjusted to a size corresponding to the target resistance (100? In this example) and the calculation module determines the failure judgment reference signal in a state in which the variable resistance is adjusted, the magnitude of the current flowing in the photo- It is possible to reduce the magnitude of the current error occurring in the photocoupler itself even if the CTR ratio remains the same. Therefore, the calculation module can determine the current size as a fault determination reference signal with a much smaller range than the conventional one, and as a result, it is possible to improve the accuracy of the short circuit judgment.

3 is a diagram illustrating an example in which a short-circuit failure detection circuit according to an embodiment of the present invention is connected to a digital input circuit. As shown in Fig. 3, the short-circuit fault detection circuit can be connected to the digital input circuit of the plant and is connected in particular between the source power and the ground power.

In one embodiment of the present invention, a switch may be further included between the photocoupler and the digital input circuit. When a short-circuit failure detection circuit and a digital input circuit are connected through a switch, it is possible to detect that a short-circuit failure detection circuit and a digital input circuit are connected to each other, thereby adjusting a variable resistor for a short-circuit failure detection operation.

According to another embodiment of the present invention, the variable resistance control unit may further include a variable resistance control unit for controlling the size of the variable resistance according to the operation of the short circuit failure detection circuit. This is shown in FIG. The variable resistance control unit sets the variable resistance as a target resistance when determining a failure judgment reference signal and adjusts the variable resistance to 0 in a short-circuit failure detection operation.

The sensitivity of the operation module can be increased by setting the variable resistor to the target resistance at the time of determining the failure judgment reference signal. As a result, the accuracy of the short-circuit fault detection circuit is improved. On the other hand, during the short-circuit failure detection operation, the variable resistor is automatically set to 0 so that the operation module (short-circuit failure signal detection unit) set according to the target resistance can operate correctly.

In one embodiment of the present invention, the variable resistance controller may operate to adjust the magnitude of the variable resistor to zero when the switch is turned on, and to determine whether or not a short circuit is detected in response to the operation of the switch.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. You should see.

Claims (10)

An optocoupler connected to a digital input circuit within the plant;
A variable resistor coupled to the photocoupler;
A short-circuit failure signal detecting unit for determining whether a short-circuit of the input / output terminals of the digital input circuit occurs according to the light generated in the photocoupler; And
A variable resistance control unit for controlling the size of the variable resistor according to the operation of the short circuit failure detection circuit;
Lt; / RTI >
The short-circuit fault signal detection unit
A light receiving module for detecting light generated in the photo coupler;
Calculating a magnitude of a current flowing through the photocoupler using the intensity of light sensed by the light receiving module, determining whether a short circuit occurs according to the magnitude of the current, adjusting the variable resistor to a magnitude corresponding to the target resistance A calculation module for determining a current calculated at the time of a failure as a failure determination reference signal; And
A memory for storing a fault judgment reference signal which is determined by the operation module, and for storing a fault judgment reference signal,
/ RTI >
Wherein the variable resistance control unit adjusts the variable resistance to zero during a short-circuit failure detection operation,
delete delete 2. The device of claim 1,
In the digital input circuit, a short-circuit fault detection circuit
The method of claim 4,
The target resistance is a short-
delete The variable resistor according to claim 1,
And a short-circuit failure detecting circuit for setting the variable resistor as a target resistor when determining a failure judgment reference signal,
delete The method according to claim 1,
A switch between the photocoupler and the digital input circuit;
A short-circuit fault detection circuit
The method according to claim 9, wherein when the switch is turned on,
The variable resistance control unit includes a short-circuit failure detecting circuit for adjusting the size of the variable resistor to zero

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