KR20230109444A - Circuit for outputting a signal of relay, apparatus for controlling relay and relay - Google Patents

Abstract

The embodiment receives a control signal and a reference signal that is the basis for outputting a relay signal corresponding to the control signal from the operation unit of the relay, and a latch unit that varies the output of the relay signal according to the reference signal, and the latch unit A signal output circuit of a relay including a relay unit that receives a relay signal, operates a relay based on the relay signal, and outputs an output signal generated according to the relay operation to a circuit breaker connected to the relay, It relates to a control device and a relay including the same.

Description

Relay signal output circuit, relay control device and relay

The embodiment relates to a signal output circuit of a digital relay, a control device of the relay, and a relay.

A relay detects an accident in the power system and turns off the circuit breaker when an accident occurs (cuts off the power supply to the area where the accident occurred) to prevent secondary accidents by releasing the accident and disconnecting the system. It is a product that requires very high operational reliability. product. In particular, the digital output terminal is a terminal that finally outputs the circuit breaker OFF signal, and it is a very important terminal as it may cause a secondary accident or unnecessary power outage by not properly blocking an accident in the event of a failure or malfunction/non-operation. can

1 is a schematic diagram illustrating an output circuit of a conventional digital relay.

As shown in Figure 1, the output circuit of the conventional digital relay is composed of Photo-Coupler, Darlington TR, and Relay & Free wheeling Diode.

The driving principle of each configuration is as follows.

Control Pin1 of Photo-Coupler to High and Pin2 to Low to turn on the photocoupler, make Pin3 of Photo-Coupler to High (VCC), and when VCC is applied to Base (PIN1) of Darlington-TR, the primary/ All the secondary TRs are turned on, and the current pass of the relay stage coil is formed, generating magnetic force and outputting an output signal as the secondary side contact is turned on.

The signal controlling the Photo-Coupler is generally output from the CPU. Usually, in the case of such a CPU, there is a case where the CPU is in a Halt state due to an unexpected cause. A circuit that constantly monitors the operating state is set aside to reset the CPU when it is determined to be in an abnormal state to restore it to a normal state.

In this case, if the DO is normally OFF, there is no problem because the PIN1 and PIN2 signals to control the Photo-Coupler are 0, 0. On the other hand, if the DO is normally ON, PIN1 of the Photo-Coupler = 1, PIN2 = 0, but when the CPU is reset, PIN1 and PIN2 unconditionally become 0,0 at least once during the process of initializing the output port of the CPU.

In this case, when the ON state is temporarily released and then turned ON again, an unexpected malfunction may occur in the actual system due to a momentary malfunction. exist.

That is, the conventional digital relay has a problem in that the output signal is erroneously output due to the output instability of the control signal, that is, the output fluctuation of the CPU, which is the basis for generating the output signal due to disturbance.

In addition, due to the erroneous output of such an output signal, a problem has been caused in which the device malfunctions or the field circuit protection cannot be stably performed.

An object of the present invention is to improve the limitations of the prior art as described above.

Accordingly, the present specification is intended to provide an embodiment of a signal output circuit of a relay, a control device of a relay, and a relay capable of preventing erroneous output of an output signal.

In addition, it is intended to provide an embodiment of a relay signal output circuit, a relay control device, and a relay that can prevent the relay's malfunction or the variation of the output signal caused by various external factors and the consequent malfunction of the circuit breaker.

The present invention for solving the above problems is technically characterized in that the output of the output signal is maintained for a certain period of time using a latch circuit.

Specifically, by using a latch circuit to output an output signal according to the pulse of the reference signal so that the output of the output signal is maintained, erroneous output of the output signal due to malfunction is prevented.

The above technical features are applied to the relay's signal output circuit, the relay's control device, and the relay, so that the above problems can be solved.

The present specification intends to provide an embodiment of a signal output circuit of a relay, a control device of a relay, and a relay using the above technical features as a means for solving problems.

The embodiment of the signal output circuit of the relay using the above technical features as a means of solving the problem receives a control signal from the operation unit of the relay and a reference signal that is the basis for outputting the relay signal corresponding to the control signal, and receives the reference signal A latch unit that varies the output of the relay signal and receives the relay signal from the latch unit, operates a relay based on the relay signal, and outputs an output signal generated according to the relay operation to a circuit breaker connected to the relay Includes a relay that outputs.

In an embodiment, the reference signal may be a clock signal including a plurality of pulses whose size changes according to the change in size of the control signal.

In an embodiment, the pulse of the reference signal may rise at a point in time when the level of the control signal changes.

In an embodiment, the latch unit may change an output state of the relay signal at a point in time when the level of the reference signal changes.

In an embodiment, when the latch unit is outputting the relay signal in the first form, outputs the relay signal in the second form when the magnitude of the reference signal changes, and outputs the relay signal in the second form. , When the magnitude of the reference signal changes, the relay signal can be output in the first form.

In an embodiment, the latch unit may change an output state of the relay signal at a falling edge at which the magnitude of the reference signal decreases.

In an embodiment, the latch unit may output the relay signal in the second shape from the falling edge and maintain the output of the relay signal in the second shape until the next falling edge.

In an embodiment, a resistance unit may further include a resistance unit maintaining a level of the reference signal input from the operation unit to the latch unit at a front end of the latch unit.

In addition, the embodiment of the control device of the relay using the above technical features as a means for solving the problem generates a control signal based on the detection result of one or more of the current and voltage detected by the detection unit of the relay, and based on the control signal A calculation unit for generating a reference signal and an output unit for generating an output signal for operating a circuit breaker connected to the relay to be cut off based on the control signal and the reference signal and outputting the output signal to the circuit breaker, the output unit comprising: A latch unit that receives a control signal and the reference signal and outputs a relay signal corresponding to the control signal according to the reference signal, and receives the relay signal from the latch unit and operates a relay based on the relay signal, and a relay unit generating the output signal according to the relay operation and outputting the output signal to the circuit breaker.

In an embodiment, the control signal, the reference signal, and the relay signal may be signals in the form of pulses composed of low and high levels.

In an embodiment, the reference signal may rise after a pulse rises and falls within one pulse of the control signal.

In an embodiment, the latch unit may output the relay signal by raising or lowering the pulse of the relay signal at a falling edge where the pulse of the reference signal falls.

In an embodiment, the latch unit may output the relay signal by raising a pulse of the relay signal at a falling edge where the pulse of the reference signal falls, and by decreasing a pulse of the relay signal at a next falling edge.

In an embodiment, the output unit may further include a resistance unit maintaining a level of the reference signal input from the operation unit to the latch unit.

In addition, an embodiment of a control device for a relay using the above technical features as a means for solving problems includes a detection unit that detects one or more of current and voltage to generate a detection signal, generates a control signal based on the detection signal, An arithmetic unit that generates a reference signal based on the control signal, and outputs the relay signal according to the pulse of the reference signal by changing the output of the relay signal corresponding to the control signal at a falling edge where the pulse of the reference signal falls. and a relay unit that operates on the basis of the relay signal and generates an output signal that cuts off the circuit breaker according to the relay operation and outputs the output signal to the circuit breaker.

On the other hand, an embodiment of a control device for a relay using the above technical features as a means for solving problems includes a detection unit generating a detection signal by detecting one or more of current and voltage, and an output that cuts off the circuit breaker based on the detection signal. It includes a control unit for generating a signal, wherein the control unit generates a control signal based on the detection signal, and an arithmetic unit for generating a reference signal based on the control signal and the relay based on the control signal and the reference signal. And an output unit for generating an output signal for operating a circuit breaker connected to and outputting the output signal to the circuit breaker, wherein the output unit receives the control signal and the reference signal from the operation unit and responds to the control signal according to the reference signal. A latch unit that outputs a relay signal that receives the relay signal from the latch unit, performs a relay operation based on the relay signal, and generates the output signal according to the relay operation and outputs the output signal to the circuit breaker. It may be implemented in the form of

In addition, an embodiment of a control device for a relay using the above technical features as a means for solving problems includes a detection unit that detects one or more of current and voltage to generate a detection signal, and an output that cuts off the circuit breaker based on the detection signal. A control unit for generating a signal, wherein the control unit generates a control signal based on the detection signal, an arithmetic unit for generating a reference signal based on the control signal, and a relay corresponding to the control signal according to the reference signal. It may be implemented in a form including a latch unit that outputs a signal and a relay unit that operates a relay based on the relay signal, generates the output signal according to the relay operation, and outputs the output signal to the circuit breaker.

According to the embodiment, by using a latch circuit to output an output signal according to the pulse of the reference signal so that the output of the output signal is maintained, there is an effect of preventing erroneous output of the output signal due to malfunction.

In addition, by preventing the erroneous output of the output signal and the resulting erroneous operation due to various external factors with a simple circuit configuration, there is an effect of improving the conventional limitations simply, conveniently, and economically.

In addition, stable circuit/system protection is achieved, enabling reliable device/system operation, as well as increasing the stability, reliability, usability and effectiveness of the relay.

1 is an exemplary view showing the signal output principle of a conventional relay.
2 is a configuration diagram of a relay according to an embodiment.
3 is an exemplary view of a latch unit according to an embodiment;
4 is a signal processing block diagram of a relay according to an embodiment.
Figure 5 is an exemplary view showing the form of a signal processed by the relay according to the embodiment.
6 is a signal processing timing diagram of a relay according to an embodiment.
7 is an exemplary view of a resistance unit according to an embodiment;

Hereinafter, the embodiments disclosed in this specification will be described in detail with reference to the accompanying drawings, but the same or similar components are assigned the same reference numerals regardless of reference numerals, and redundant description thereof will be omitted.

In addition, in describing the technology disclosed in this specification, if it is determined that a detailed description of a related known technology may obscure the gist of the technology disclosed in this specification, or if a person skilled in the art can easily understand or infer it without a specific description, that A detailed description is omitted. In addition, it should be noted that the accompanying drawings are only intended to facilitate understanding of the spirit of the technology disclosed in this specification, and should not be construed as limiting the spirit of the technology by the accompanying drawings.

First, the relay 1000 to which the embodiments of the present specification can be commonly applied will be described.

As shown in FIG. 2, the relay 1000 determines whether or not the circuit is abnormal based on a result of detecting one or more of the current and voltage of the installed circuit, and the circuit or one or more devices connected to the circuit. A device that protects the circuit by operating the protection device 10 that protects the circuit, detecting at least one of current and voltage to generate a detection signal, and the protection device 10 based on the detection signal It includes a control unit 200 that generates an output signal for operation.

That is, in the relay 1000, the detection unit 100 detects one or more of the current and voltage of the converter, generates the detection signal according to the detection result, and transmits the detection signal to the control unit 200. And, the control unit 200 may generate the output signal based on the detection signal, transmit the output signal to the protection device 10, and operate the protection device 10 to protect the circuit. there is.

The relay 1000 may be a digital relay, and the protection device 10 may be a circuit breaker.

Accordingly, the signal processed by the controller 200 may be in the form of a digital signal.

Hereinafter, for convenience of description, an example in which the protection device 10 is a circuit breaker will be described with emphasis.

In the relay 1000, the controller 200 may be a control circuit, a control device, or a control module including one or more signal processing modules that generate the output signal based on the detection signal.

The control unit 200 may include a control circuit (control device or control module) including a calculation unit 210 and an output unit 220 .

The calculation unit 210 generates a control signal based on a detection result of at least one of current and voltage detected by the detection unit 100 and outputs the control signal to the output unit 220 .

The output unit 220 receives the control signal from the operation unit 210 and generates an output signal for blocking the circuit breaker 10 connected to the relay 100 based on the control signal to generate the circuit breaker ( 10) output.

That is, the control unit 200 includes the operation unit 210 and the output unit 220, the operation unit 210 generates the control signal based on the detection signal, and the output unit 220 may generate the output signal based on the control signal and output the output signal to the circuit breaker 10 to operate the circuit breaker 10.

As such, in the relay 1000, the output unit 220 included in the control unit 200 generates the output signal based on the control signal received from the operation unit 210, and transmits the output signal to the circuit breaker. By outputting to (10) and operating the circuit breaker 10, the circuit may be protected.

Here, when a change occurs in the operation of the calculation unit 210, for example, when a disturbance occurs or an error occurs in the calculation unit 210 itself, or when the power of the relay 1000 is reset, the calculation unit 210 As the transfer of the control signal to the output unit 220 is stopped, the output signal output from the output unit 220 also fluctuates. In this case, the circuit breaker 10 malfunctions and protects the circuit can become unstable.

Embodiments of the signal output circuit of the relay, the control device of the relay, and the relay of the present specification are intended to prevent this problem, and each embodiment will be described in detail below.

<Signal output circuit of relay>

The signal output circuit (hereinafter, referred to as an output circuit) may mean a circuit that outputs the output signal from the relay 100.

The output circuit 220 may be the output unit 220 of the controller 200 described above.

The output circuit 220 may be formed in a module form including a plurality of circuit elements.

As shown in FIG. 2, the output circuit 220 receives a reference signal that is a basis for outputting the control signal and the relay signal corresponding to the control signal from the calculation unit 210, and receives the reference signal according to the reference signal. A latch unit 222 that varies the output of the relay signal and receives the relay signal from the latch unit 222, operates a relay based on the relay signal, and transmits an output signal generated according to the relay operation to the relay It includes a relay unit 223 outputting to the circuit breaker 10 connected to (1000).

That is, the output circuit 220 includes the latch unit 222 and the relay unit 223 to generate the output signal according to a result of receiving the control signal and the reference signal, may be output to the circuit breaker 10.

In the output circuit 220, the latch unit 222 receives the control signal and the reference signal from the operation unit 210, generates the relay signal according to the control signal and the reference signal, and A signal is output to the relay unit 223, and the relay unit 223 receives the relay signal, generates the output signal according to the relay signal, and outputs the output signal to the circuit breaker 10. can do.

The latch unit 222 may be formed of one Insulated Circuit (IC) element, for example, a flip-flop IC element as shown in FIG. 3 .

In the flip-flop IC device as shown in FIG. 3, /OE is an Output Enable signal and functions to generate output only when low is input, and CLK represents a clock and sets the states of D1 to 8 to Q at the rising edge of the clock. output to each output terminal.

That is, since the output is changed in synchronization with the clock, even if the state of OUT1 to 9 becomes 0 as a result of a reset in the signal transmission part at the previous stage, the state of the output Q maintains the previous value, and after the completion of rebooting the signal transmission part The value of Q changes again only when the CTRL_LE output changes to High.

Accordingly, even if the signal delivery unit is reset, the operation of the DO can maintain the previous state, and thus the malfunction described above can be prevented.

When the latch unit 222 is made of the flip-flop IC device, the operation unit 210 may correspond to the signal transmission unit, and the relay is performed through the flip-flop function of the latch unit 222. The output of the signal can be made to maintain its previous state.

Meanwhile, the relay unit 223 may be formed of a relay element that operates according to the relay signal and generates the output signal.

A specific process of signal processing in the output circuit 220 and the shape of the signal may be as shown in FIG. 4 .

As shown in FIG. 4 , when the detection unit 100 included in the relay 1000 detects one or more of the current and voltage of the converter, the detection signal is generated according to the detection result, and the operation unit 210 , and the operation unit 210 may generate the control signal and the reference signal based on the detection signal and transmit them to the latch unit 222 .

The control signal is a signal that is the basis of the relay operation of the relay unit 223, and is output in a first form corresponding to a low magnitude and a second form corresponding to a high magnitude as shown in FIG. It may be a signal in the form of a pulse.

The first form may be a form in which the magnitude of the control signal is n[V], and the second form may be a form in which the magnitude of the control signal is N[V].

That is, the control signal may be a pulse signal output in the first shape and the second shape.

The reference signal may be a signal for a reference to which the relay signal corresponding to the control signal is output from the latch unit 222 .

As shown in FIG. 5 , the reference signal may also be a pulse type signal having a level of Low (x[V]) or High (X[V]).

The reference signal may be a clock signal including a plurality of pulses whose magnitude changes according to the change in magnitude of the control signal.

That is, the pulse of the reference signal may rise or fall at a rising edge where the pulse of the control signal rises from Low to High or a falling edge where the pulse of the control signal falls from High to Low.

The pulse of the reference signal may rise at a point in time when the level of the control signal changes.

That is, the level of the reference signal may rise from Low to High at the rising edge or falling edge of the control signal.

The reference signal, preferably, as shown in FIG. 6, the pulse rises at the rising edge of the control signal, the pulse falls before the falling edge of the control signal, and then the pulse rises at the falling edge of the control signal. can rise

That is, the pulse of the reference signal may have a shorter length than the pulse of the control signal.

When receiving the control signal and the reference signal from the operation unit 210, the latch unit 222 may output the relay signal to the relay unit 223 according to the control signal and the reference signal.

The relay signal is a signal that is the basis for the operation of the relay unit 223, and the relay signal also has a pulse shape having a low (x[V]) or high (X[V]) size as shown in FIG. may be a sign of

When receiving the control signal and the reference signal from the operation unit 210, the latch unit 222 converts the relay signal into a first form (Low) or a second form (High) according to the control signal and the reference signal. ) can be output.

The latch unit 222 may vary the output of the relay signal according to the reference signal while outputting the relay signal corresponding to the control signal to the relay unit 223 .

That is, the latch unit 222 outputs the relay signal in response to the control signal, and outputs the relay signal in the first form (Low) or the second form (High) according to the reference signal. It can be.

The latch unit 222 may change an output state of the relay signal at a point in time when the level of the reference signal changes.

The latch unit 222 outputs the relay signal in the second form (High) when the magnitude of the reference signal changes while outputting the relay signal in the first form (Low), and outputs the relay signal in the second form (High). In the case of being output in the second form (High), when the magnitude of the reference signal is changed, the relay signal may be output in the first form (Low).

That is, when the pulse of the reference signal rises or falls while outputting the relay signal in the first form (Low), the latch unit 222 outputs the relay signal in the second form (High). And, when the pulse of the reference signal rises or falls while outputting the relay signal in the second form (High), the relay signal may be output in the first form (Low).

The latch unit 222 may change an output state of the relay signal at a falling edge at which the magnitude of the reference signal decreases.

That is, when the pulse of the reference signal falls while outputting the relay signal in the first form (Low), the latch unit 222 changes the output state of the relay signal to the second form (High). and when the pulse of the reference signal falls while outputting the relay signal in the second form (High), the output state of the relay signal may be changed to the first form (High).

Accordingly, the latch unit 222 may increase or decrease the pulse of the relay signal according to the fall of the pulse of the reference signal and output the pulse.

The latch unit 222 may output the relay signal in the second form (High) from the falling edge of the reference signal and maintain the output of the relay signal in the second form (High) until the next falling edge. there is.

That is, the latch unit 222 may output the relay signal in the second form (High) until the pulse of the reference signal falls, rises, and then falls again.

Accordingly, the relay unit 223 receives the relay signal corresponding to the pulse of the control signal, so that an accurate relay operation according to the pulse period of the control signal can be performed.

For example, as shown in FIG. 6 , when an erroneous output pulse (GRAY ZONE) is included in the control signal due to the occurrence of an error in the operation unit 210, the reference signal corresponds to the timing of the erroneously output pulse. Since the relay signal is not included, the latch unit 222 does not output the relay signal in response to the erroneously output pulse, thereby preventing the erroneous output of the relay signal due to the erroneously output pulse. , Malfunction of the relay unit 223 due to a control signal erroneously output from the operation unit 210 can be prevented.

Meanwhile, the output circuit 220 further includes a resistance unit 221 maintaining the level of the reference signal input from the calculation unit 210 to the latch unit 222 at a front end of the latch unit 222. can do.

The resistance unit 221 may include a resistance of a certain size or higher and maintain the level of the reference signal input from the operation unit 210 to the latch unit 222 within a predetermined range.

Accordingly, the output circuit 220 maintains the pulse of the reference signal input to the latch unit 222 through the resistance unit 221 within a certain range, thereby preventing the latch due to the variation of the reference signal. An erroneous output of the relay signal of the unit 222 may be prevented.

Here, the resistor may be a pull-down resistor that fixes the level of the signal to Low.

Since the output is stopped when the power of the calculation unit 210 is in the OFF state, it is necessary that the output must be clearly maintained in the OFF state even in the initial driving stage of the relay 10000. At this time, the resistance unit 221 ) The resistance of the arithmetic unit 210 maintains the magnitude of the inaccurate signal generated at the output end of the operation unit 210 at Low, thereby preventing the erroneous output of the signal generated in the initial driving stage and the resulting erroneous operation.

In addition, the resistor unit 221 may further include an IC element for maintaining the level of the reference signal as shown in FIG. 7 .

The IC element is an element that clarifies the signal input to the latch unit 222, and will stably maintain the size and shape of the unstable signal output from the operation unit 210 when the relay 1000 is initially driven. can

<Relay control device>

The control device may refer to a device that controls the operation of the relay 100.

The control device 200 may be the controller 200 described above.

The control device 200 may be formed in the form of a single module including a plurality of circuit elements.

As shown in FIG. 2, the control device 200 generates the control signal based on a detection result of one or more of the current and voltage detected by the detection unit 100, and the reference based on the control signal. The output unit 220 that generates the output signal for blocking the circuit breaker 10 based on the operation unit 210 that generates a signal and the control signal and the reference signal and outputs the output signal to the circuit breaker 10 include

Here, the output unit 220 receives a reference signal that is a basis for outputting the control signal and the relay signal corresponding to the control signal from the operation unit 210, and outputs the relay signal according to the reference signal. The relay signal is received from the latch unit 222 and the latch unit 222 that is different, the relay operation is performed based on the relay signal, and the output signal generated according to the relay operation is connected to the relay 1000. It includes the relay unit 223 outputting to the circuit breaker 10.

That is, the output unit 220 may correspond to the embodiment of the output circuit 220 described above.

As described above, the output unit 220 includes the latch unit 222 as shown in FIG. 3 , and the latch unit 222 outputs the relay signal according to the control signal and the reference signal. And, the relay unit 223 may perform a relay operation according to the relay signal and output the output signal to the circuit breaker 10 .

A process of the control device 200 outputting the output signal according to the detection result may be as shown in FIG. 4 .

As shown in FIG. 4 , in the control device 200, the operation unit 210 generates the control signal and the reference signal based on the detection signal, outputs them to the latch unit 222, and A unit 222 generates the relay signal according to the control signal and the reference signal and outputs the relay signal to the relay unit 223, and the relay unit 223 generates the output signal according to the relay signal so as to break the circuit breaker. Signals for relaying can be processed through the process of outputting in (10).

As shown in FIG. 5 , the control signal, the reference signal, and the relay signal may be pulse-type signals composed of low and high levels.

The operation unit 210 receives the detection signal from the detection unit 100, generates the control signal and the reference signal based on the detection signal, and converts the control signal and the reference signal to the latch unit 222 ) can be output.

The detection unit 100 may generate the detection signal based on a real-time detection result of at least one of current and voltage of the converter, and output the detection signal to the calculation unit 210 at all times.

The operation unit 210 may always output the control signal and the reference signal generated according to the detection signal to the latch unit 222 .

The operation unit 210 generates the control signal and the reference signal according to the detection signal received at all times, and generates the control signal so that the pulse of the control signal rises at a time when the detection result corresponds to a predetermined reference or higher. can create

That is, while receiving the control signal and the reference signal at all times, the latch unit 222 responds to a portion corresponding to a pulse of the control signal, that is, a time point when the magnitude of the control signal corresponds to a high level. The relay signal may be generated so that the pulse of the relay signal rises.

The pulse of the reference signal may rise at a point in time when the level of the control signal changes.

That is, the level of the reference signal may rise from Low to High at the rising edge or falling edge of the control signal.

The reference signal may rise after a pulse rises and falls within one pulse of the control signal.

As shown in FIG. 6 , the pulse rises at the rising edge of the control signal, falls before the falling edge of the control signal, and then rises at the falling edge of the control signal. can

The latch unit 222 may output the relay signal by raising or lowering the pulse of the relay signal at a falling edge where the pulse of the reference signal falls.

That is, the pulse of the relay signal may rise or fall at a falling edge where the pulse of the reference signal falls.

The latch unit 222 may output the relay signal by raising the pulse of the relay signal at a falling edge where the pulse of the reference signal falls, and by decreasing the pulse of the relay signal at the next falling edge.

That is, the pulse of the relay signal may be maintained as High until the pulse of the reference signal falls, rises, and then falls again.

Accordingly, the relay unit 223 receives the relay signal corresponding to the pulse of the control signal, so that an accurate relay operation according to the pulse period of the control signal can be performed.

For example, as shown in FIG. 6 , when an erroneous output pulse (GRAY ZONE) is included in the control signal due to the occurrence of an error in the operation unit 210, the reference signal corresponds to the timing of the erroneously output pulse. Since the relay signal is not included, the latch unit 222 does not output the relay signal in response to the erroneously output pulse, thereby preventing the erroneous output of the relay signal due to the erroneously output pulse. , Malfunction of the relay unit 223 due to a control signal erroneously output from the operation unit 210 can be prevented.

Meanwhile, the output unit 220 further includes a resistance unit 221 maintaining the level of the reference signal input from the operation unit 210 to the latch unit 222 at a front end of the latch unit 222. can do.

The resistance unit 221 may include a resistance of a certain size or higher and maintain the level of the reference signal input from the operation unit 210 to the latch unit 222 within a predetermined range.

Accordingly, the output unit 220 maintains the pulse of the reference signal input to the latch unit 222 through the resistance unit 221 within a certain range, thereby preventing the latch due to the variation of the reference signal. An erroneous output of the relay signal of the unit 222 may be prevented.

In addition, the resistor unit 221 may further include an IC element for maintaining the level of the reference signal as shown in FIG. 7 .

<relay>

The relay 1000 may be a digital relay including the control device 200 including the output circuit 220 described above.

As shown in FIG. 2, the relay 1000 determines whether or not the circuit is abnormal based on a result of detecting one or more of the current and voltage of the installed circuit, and the circuit or one or more devices connected to the circuit. As a device that protects the circuit by operating the circuit breaker 10 that protects, the detection unit 100 detects at least one of current and voltage to generate a detection signal, and generates the control signal based on the detection signal. And, the operation unit 210 for generating the reference signal based on the control signal changes the output of the relay signal corresponding to the control signal at the falling edge where the pulse of the reference signal falls, so that the pulse of the reference signal According to the relay operation based on the latch unit 222 and the relay signal for maintaining the output of the relay signal, and generating the output signal for breaking the circuit breaker 10 according to the relay operation, the circuit breaker (10) ) and the relay unit 223 outputting to.

Here, the latch unit 222 and the relay unit 223 may be included in the output unit 220, and the operation unit 210 and the output unit 220 may be included in the control unit 200. there is.

The output unit 220 may correspond to an embodiment of the output circuit 220 described above, and the controller 200 may correspond to an embodiment of the control device 200 described above.

As described above, the latch unit 222 is composed of a flip-flop IC as shown in FIG. 3 and outputs the relay signal according to the control signal and the reference signal, and the relay unit 223, A relay operation may be performed according to a relay signal to output the output signal to the circuit breaker 10 .

A process in which the relay 1000 detects at least one of the current and voltage of the converter and outputs the output signal according to the detection result may be as shown in FIG. 4 .

As shown in FIG. 4, the relay 1000 generates the detection signal according to the result of the detecting unit 100 detecting one or more of the current and voltage of the converter and outputs it to the calculating unit 210. , The operation unit 210 generates the control signal and the reference signal based on the detection signal and outputs them to the latch unit 222, and the latch unit 222 generates the control signal and the reference signal according to the control signal and the reference signal. A relay signal is generated and output to the relay unit 223, and the relay unit 223 generates the output signal according to the relay signal and outputs the output signal to the circuit breaker 10 to process the relay signal. can

As shown in FIG. 5 , the control signal, the reference signal, and the relay signal may be pulse-type signals composed of low and high levels.

The detection unit 100 may generate the detection signal based on a real-time detection result of at least one of current and voltage of the converter, and output the detection signal to the calculation unit 210 at all times.

The operation unit 210 receives the detection signal from the detection unit 100, generates the control signal and the reference signal based on the detection signal, and converts the control signal and the reference signal to the latch unit 222 ) can be output at any time.

The operation unit 210 always outputs the control signal and the reference signal to the latch unit 222, and changes the size of the control signal and the reference signal according to a detection result according to the detection signal, and the control signal And the reference signal can be output to the latch unit 222 .

At this time, the calculation unit 210 outputs the magnitudes of the control signal and the reference signal as Low when the detection result corresponds to less than the preset standard, and the detection result corresponds to the preset standard or more. case, that is, when it is necessary to operate the circuit breaker 10 because one or more of the current and voltage of the circuit corresponds to the preset standard or more, the control signal and the reference signal may be output as High. .

Accordingly, while receiving the control signal and the reference signal at all times, the latch unit 222 relays the relay at a portion corresponding to a pulse of the control signal, that is, a time point when the magnitude of the control signal corresponds to a high level. The size of the signal may be output as High.

In this case, the calculation unit 210 may output the level of the reference signal as High at the time when the level of the control signal changes.

That is, the level of the reference signal may rise from Low to High at the rising edge or falling edge of the control signal.

The reference signal may rise after a pulse rises and falls within one pulse of the control signal.

As shown in FIG. 6, the calculation unit 210 outputs the reference signal as High at the rising edge of the control signal, outputs the reference signal as Low before the falling edge of the control signal, and then controls the control signal. At the falling edge of the signal, the reference signal may be output as high.

The latch unit 222 may change the relay signal to High or Low at a falling edge where the pulse of the reference signal falls, and output the same.

That is, the pulse of the relay signal may rise or fall at a falling edge where the pulse of the reference signal falls.

The latch unit 222 may output the relay signal as High at a falling edge where the pulse of the reference signal falls, and output the relay signal as Low at the next falling edge.

That is, the pulse of the relay signal may be maintained as High until the pulse of the reference signal falls, rises, and then falls again.

Accordingly, the relay unit 223 receives the relay signal corresponding to the pulse of the control signal, so that an accurate relay operation according to the pulse period of the control signal can be performed.

For example, as shown in FIG. 6 , when an erroneous output pulse (GRAY ZONE) is included in the control signal due to the occurrence of an error in the operation unit 210, the reference signal corresponds to the timing of the erroneously output pulse. Since the relay signal is not included, the latch unit 222 does not output the relay signal in response to the erroneously output pulse, thereby preventing the erroneous output of the relay signal due to the erroneously output pulse. , Malfunction of the relay unit 223 due to a control signal erroneously output from the operation unit 210 can be prevented.

Meanwhile, the output unit 220 further includes a resistance unit 221 maintaining the level of the reference signal input from the operation unit 210 to the latch unit 222 at a front end of the latch unit 222. can do.

The resistance unit 221 may include a resistance of a certain size or higher and maintain the level of the reference signal input from the operation unit 210 to the latch unit 222 within a predetermined range.

Accordingly, the output unit 220 maintains the pulse of the reference signal input to the latch unit 222 through the resistance unit 221 within a certain range, thereby preventing the latch due to the variation of the reference signal. An erroneous output of the relay signal of the unit 222 may be prevented.

In addition, the resistor unit 221 may further include an IC element for maintaining the level of the reference signal as shown in FIG. 7 .

Preferred embodiments of the present invention described above have been disclosed to solve the technical problems, and those skilled in the art (those skilled in the art) to which the present invention belongs can make various modifications, changes, additions, etc. within the spirit and scope of the present invention. This will be possible, and such modifications and the like will be regarded as belonging to the scope of the following claims.

10: protection device (breaker) 100: detection unit
200: control unit (control device) 210: calculation unit
220: output unit (output circuit) 221: resistance unit
222: latch unit 223: relay unit
1000: relay

Claims (15)

In the signal output circuit of the relay,
a latch unit that receives a control signal and a reference signal that is a basis for outputting a relay signal corresponding to the control signal from the operation unit of the relay, and varies an output of the relay signal according to the reference signal; and
A relay unit that receives the relay signal from the latch unit, operates a relay based on the relay signal, and outputs an output signal generated according to the relay operation to a circuit breaker connected to the relay.
Signal output circuit of the relay, characterized in that it comprises a. According to claim 1,
The reference signal is
The signal output circuit of the relay, characterized in that the clock signal including a plurality of pulses whose size changes according to the change in the size of the control signal. According to claim 2,
The reference signal is
The signal output circuit of the relay, characterized in that the pulse rises at the time when the magnitude of the control signal changes. According to claim 2,
The latch part,
The signal output circuit of the relay, characterized in that for changing the output state of the relay signal at the time when the magnitude of the reference signal changes. According to claim 4,
The latch part,
When the relay signal is being output in the first form, when the magnitude of the reference signal changes, the relay signal is output in the second form,
When the relay signal is being output in the second form, the signal output circuit of the relay, characterized in that for outputting the relay signal in the first form when the magnitude of the reference signal changes. According to claim 5,
The latch part,
A signal output circuit of a relay, characterized in that for changing the output state of the relay signal at a falling edge where the magnitude of the reference signal decreases. According to claim 6,
The latch part,
A signal output circuit of a relay, characterized in that for outputting the relay signal in the second form from the falling edge and maintaining the output of the relay signal in the second form until the next falling edge. According to claim 1,
A resistance unit maintaining the level of the reference signal input from the operation unit to the latch unit at the front end of the latch unit.
A signal output circuit of the relay, characterized in that it further comprises. In the control device of the relay,
An operation unit for generating a control signal based on one or more detection results of current and voltage detected by the detection unit of the relay, and generating a reference signal based on the control signal; and
An output unit generating an output signal for operating a circuit breaker connected to the relay based on the control signal and the reference signal and outputting the generated output signal to the circuit breaker.
including,
the output unit,
a latch unit receiving the control signal and the reference signal from the operation unit and outputting a relay signal corresponding to the control signal according to the reference signal; and
A relay unit that receives the relay signal from the latch unit, operates a relay based on the relay signal, generates the output signal according to the relay operation, and outputs the output signal to the circuit breaker.
Control device of the relay, characterized in that it comprises a. According to claim 9,
The control signal, the reference signal and the relay signal,
A control device for a relay, characterized in that it is a signal in the form of a pulse consisting of low and high levels. According to claim 10,
The reference signal is
A control device for a relay, characterized in that the pulse rises and falls within one pulse of the control signal and then rises. According to claim 11,
The latch part,
The control device of the relay, characterized in that for outputting the relay signal by raising or lowering the pulse of the relay signal at the falling edge of the falling edge of the pulse of the reference signal. According to claim 12,
The latch part,
The control device of the relay, characterized in that for outputting the relay signal by raising the pulse of the relay signal at a falling edge where the pulse of the reference signal falls, and by falling the pulse of the relay signal at the next falling edge. According to claim 9,
the output unit,
A resistance unit maintaining the level of the reference signal input from the operation unit to the latch unit.
The control device of the relay, characterized in that it further comprises. a detection unit generating a detection signal by detecting at least one of current and voltage;
a calculation unit generating a control signal based on the detection signal and generating a reference signal based on the control signal;
a latch unit for maintaining the output of the relay signal according to the pulse of the reference signal by changing the output of the relay signal corresponding to the control signal at the falling edge of the falling edge of the pulse of the reference signal; and
A relay unit that operates a relay based on the relay signal, generates an output signal that cuts off the circuit breaker according to the relay operation, and outputs the output signal to the circuit breaker.
Relay characterized in that it comprises a.