KR200352036Y1 - A circuit for sensing open state of the secondary terminal of a current transformer - Google Patents

Abstract

The present invention is a circuit for detecting the opening of the secondary terminal of the current transformer, and more specifically, when the secondary terminal of the current transformer is opened, it detects this to short-circuit the secondary terminal of the current transformer to prevent damage to the current transformer and electric shock. The present invention relates to a current transformer open detection circuit.

The present invention for achieving the above object is a current transformer open detection circuit for shorting the secondary terminal by using the open voltage as an input signal when the current transformer secondary terminal is open, the open voltage having the overvoltage value From the varistor (TNR), the current limiting resistor (R1), and the first zener diode (ZD1) for controlling the trigger voltage in the alternating positive (+) cycle, A circuit protection unit (10) configured as a second zener diode (ZD2) for controlling the trigger voltage to block overvoltage and output a safety voltage; A rectifier circuit unit 20 outputting a DC voltage using the safety voltage output from the circuit protection unit as an input signal; An ultra-short amplification unit 30 for amplifying the DC voltage value output by the rectifying circuit unit using a separate external applied power source; Comparing the amplified voltage amplified by the ultra-short amplification unit with the applied reference voltage to output a positive voltage when the amplified voltage is higher than the reference voltage and output a negative voltage when the amplified voltage is lower than the reference voltage. Comparative amplifier 40; When the comparison amplifier outputs a positive voltage due to the opening of the secondary transformer current transformer, a current conduction portion 50 conducts current to the relay coil by a transistor operated by using the positive output voltage signal as a current control signal. ); And a relay circuit part 60 which, when the current flows through the relay coil by the current conduction part, closes the short-circuit switch to short-circuit the current transformer secondary terminal, and maintains the short-circuit state of the secondary terminal until the self-maintenance switch is closed to recover the system. It is composed of

By the current transformer open detection circuit according to the present invention, even if the secondary terminal of the current transformer is accidentally opened, it is possible to prevent damage to the current transformer and electric shock by immediately detecting and shorting it.

Description

Open sense circuit of current transformer secondary terminal {A CIRCUIT FOR SENSING OPEN STATE OF THE SECONDARY TERMINAL OF A CURRENT TRANSFORMER}

The present invention is a circuit for detecting the opening of the secondary terminal of the current transformer, and more specifically, when the secondary terminal of the current transformer is opened, the current transformer opening detection circuit for preventing the current transformer burnout and electric shock by short-circuit the secondary terminal of the current transformer. It is about.

Current transformers (CTs) are transformers used to extend the measuring range of an alternating current ammeter by obtaining a small current proportional to that of a large current of alternating current. The structure of the current transformer is a winding of a primary coil with a small number of windings and a secondary coil with a large number of windings on a stratified core such as a transformer. The secondary coil connects a measuring device such as an ammeter, a power meter, and a relay. In addition, the rated current of the primary current of the current transformer varies from several tens of amps to several thousand A. However, the rated current of the secondary current is mostly 5 A and the current ratio of the primary and secondary coils is determined by the number of coil turns. Inversely

On the other hand, the secondary terminal of the current transformer is safe to short it, but it is very dangerous to open it. If the secondary coil is opened while current flows in the primary coil of the current transformer, This is because the current acts to magnetize all the iron cores so that the iron cores saturate and generate heat, which may cause damage to the coil or explosion risk of the current transformer and electric shock. Therefore, if the internal circuit of the instrument such as the ammeter or power meter connected to the secondary coil of the current transformer is opened or other reasons, the secondary coil of the current transformer is opened and immediately detects that it is shut off, that is, the open secondary side. It is necessary to connect a circuit to the secondary side of the current transformer with the function of shorting the terminal immediately.

On the other hand, after the open sensing circuit detects an open and shorts the terminal, the open sensing circuit must maintain the short circuit state until the manager finds the cause of the opening of the current transformer and removes it. do. If the short-circuit status is incomplete and the manager suddenly switches to the open state during repair work, an electric shock may occur.

Even though there is such a risk, there is almost no countermeasure for preventing accidents due to the opening of the secondary coil of the current transformer. Therefore, the development of a device for preventing this is required.

Therefore, the present invention is to provide a current transformer open detection circuit for preventing the breakage of the current transformer and the electric shock accident by detecting the case that the secondary coil of the current transformer is open, by shorting the secondary coil.

Another object of the present invention is to open the current transformer including a relay circuit to warn the administrator by using an alarm device when opening the secondary coil of the current transformer, and to maintain a short circuit state of the secondary coil until the manager finishes inspecting the current transformer. To provide a sensing circuit.

Another object of the present invention will become more apparent from the following detailed description and accompanying drawings.

1 is a block diagram of a circuit provided with a current transformer open detection circuit according to the present invention.

2 is a detailed circuit diagram of the current transformer open detection circuit according to the present invention.

3 is a circuit diagram of an applied power supply unit applied to a current transformer open detection circuit according to the present invention.

The current transformer open detection circuit of the present invention for achieving the above object is a current transformer open detection circuit for shorting the secondary terminal by using the open voltage as an input signal when the current transformer secondary terminal is open, A circuit protection unit for blocking an overvoltage and outputting a safety voltage to prevent damage of the sensing circuit from the open voltage having the overvoltage value; A rectifier circuit unit for outputting a DC voltage using the safety voltage output from the circuit protection unit as an input signal; An ultra-short amplification unit for amplifying the DC voltage value output by the rectifier circuit unit using a separate external applied power source; Comparing the amplified voltage amplified by the ultra-short amplification unit with the applied reference voltage to output a positive voltage when the amplified voltage is higher than the reference voltage and output a negative voltage when the amplified voltage is lower than the reference voltage. Comparative amplifier; A current conduction section for conducting current to a relay coil by a transistor operated by using the positive output voltage signal as a current control signal when the comparative amplifier outputs a positive voltage due to the opening of the secondary transformer current transformer; And a relay circuit portion which, when current flows through the relay coil by the current conduction portion, closes the short-circuit switch to short-circuit the current transformer secondary terminal, and maintains the short-circuit state of the secondary terminal until the self-maintenance switch is closed to recover the system. It is done by

The circuit protection unit may include a varistor (TNR) for overvoltage blocking, a resistor for limiting current (R1), a first zener diode (ZD1) for controlling a trigger voltage in an AC positive cycle, and an AC negative cycle. The second zener diode (ZD2) for controlling the trigger voltage is preferably configured to include.

In addition, the relay circuit portion is further preferably configured to further include an alarm switch for operating the alarm system circuit for informing the opening of the secondary terminal of the current transformer by the current flow through the relay coil.

Hereinafter, the current transformer opening detection circuit of the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram showing the configuration of the current transformer open detection circuit according to the present invention. As shown, the primary coil of the current transformer (CT) is connected between the load and the power supply, the secondary coil of the current transformer is connected to the measuring instrument such as an ammeter and the current transformer open detection circuit of the present invention in parallel. In FIG. 1, only one ammeter is connected as a measuring instrument. However, a plurality of recorders and power meters may be connected.

The current transformer open detection circuit of the present invention includes a circuit protection unit 10, a rectifier circuit unit 20, an ultra-short amplifier 30, a comparative amplifier 40, a current conducting unit 50, a relay circuit unit 60 It is configured and a separate applied power source 400 for supplying power is applied.

Figure 2 is a detailed circuit diagram showing an embodiment of the current transformer open detection circuit according to the present invention. Referring to Figure 2 describes the operation principle of the sensing circuit of the present invention as follows. When the current transformer secondary terminal (b-b ') is opened in the state where current flows in the primary coil of the current transformer, a high value of the open voltage (V ₁ ) is applied to the secondary terminal (b-b'). This applied voltage V ₁ becomes the input voltage of the open sensing circuit.

The voltage V ₁ of this open terminal is generally very large. Therefore, the circuit protection unit 10 is configured to protect the open sensing circuit of the present invention from such an overvoltage V ₁ . Inserting the varistor (TNR) into the circuit protection unit 10 to protect the first stage, and secondly limits the current at the resistor R1, and then once again at the first zener diode (ZD1) and the second zener diode (ZD2). By cutting off the overvoltage, it outputs a safe voltage (V ₂ ) (hereinafter referred to as 'safe voltage') without damaging the sensing circuit. As such, the circuit protection unit 10 receives the overvoltage V ₁ and outputs a 'safe voltage V ₂ '. In FIG. 2, the circuit protection unit 10 includes a varistor TNR, a resistor R1, a first zener diode ZD1, and a second zener diode ZD2.

As described above, since the open detection circuit of the present invention uses the secondary open voltage as an input signal, unlike the case in which the open current on the secondary side of the current transformer is an input signal, the rated value of the current transformer secondary current (5A in most cases). Accurate detection is always possible without being limited by the range of.

The safety voltage V ₂ output by the circuit protection unit 10 is converted into a DC voltage through the rectifying circuit unit 20. That is, the rectifier circuit unit 20 receives the safety voltage V ₂ outputted by the circuit protection unit, rectifies it through the diode D3, smooths it in the capacitor C10, and converts the DC voltage V ₃ . The converted DC voltage V ₃ is input to the ultra short amplifier 30. In FIG. 2, the rectifier circuit 20 includes a diode D3 and a capacitor C10.

The ultra-short amplification unit 30 amplifies the DC voltage V ₃ output from the rectifier circuit unit 20 using an externally applied power source 400. The ultra-short amplifier is used to increase the input impedance for the purpose of reducing the influence on the current transformer output, and op-amp 1 (OP-AMP1) is used as the ultra-short amplifier. In FIG. 2, the ultra-short amplifier 30 includes an op amp 1 (OP-AMP1) and an applied power source 400 for supplying power thereto.

The voltage signal V ₄ amplified by the first stage amplifier OP-AMP1 and passed through the resistor R4 is input to the comparison amplifier op amp 2 (OP-AMP2) together with the reference voltage V ₅ . The amplifier section outputs a positive voltage.

Looking at this in detail as follows. That is, the output voltage V ₄ signal of the ultra short amplifier 30 is input to the positive terminal of OP-AMP2, which is the comparative amplifier 41, through the resistor R4. On the other hand, the reference voltage V ₅ generated by the separate DC applied power supply Vcc 400, the resistor R2, the resistor R3, and the variable resistor S-VR is applied to the negative terminal of the comparison amplifier OP-AMP2. When the secondary side of the current transformer is opened, when the voltage V ₄ input to the comparison amplifier becomes higher than the reference voltage V ₅ , the output V ₆ of the comparison amplifier 41 is outputted with a positive voltage, thereby providing a current conduction portion. Current flows in the direction of the resistor R6 at 50. On the other hand, in the usual case in which the secondary side of the current transformer is not opened, the input voltage V ₄ is not higher than the reference voltage V _5. Therefore, the output V ₆ of the comparative amplifier 41 outputs a negative voltage to output a relay. The circuit section is not operated. In FIG. 2, the comparative amplifier 40 has a configuration in which an applied power source Vcc 400 is applied to the resistors R2, R3, R4, and R5 and the comparative amplifier OP-AMP2.

As described above, when the secondary terminal b-b 'of the current transformer is opened, the output V ₆ of the comparative amplifier passes through the current limit of the resistors R6 and R7 in the current conduction section 50 and then the base of the transistor TR. While applied to the terminal, the capacitor C11 maintains the voltage value applied to the base terminal of the transistor TR for a predetermined time. At this time, the capacitor C11 can be charged quickly by the diode D4, and is discharged through the resistors R6, R7, and R8 during discharge. In FIG. 2, the current conduction unit 50 includes resistors R6, R7, R8, R9 and diodes D4, D5, D6, light emitting diodes (LEDs), transistors (TR), recovery switches 51, capacitors C11, and an applied power supply Vcc ( 400).

When a voltage is applied to the base terminal of the transistor TR, a current flows from the collector toward the emitter, so that a current flows in the relay coil 61, thereby operating the relay circuit 60. In FIG. 2, the relay circuit portion is composed of a relay coil 61 and switches S1, S2, and S3.

While the relay circuit unit 60 is operating, the light-emitting diode LED is turned on by limiting the current through the resistor R9 to serve as an alarm display, and the self-maintaining switch S1 operates so that the potential of one of both terminals of the relay coil is activated. By grounding the relay coil, it retains its magnetism. In addition, when alarm switch S2 is closed, the alarm system circuit is operated to inform the manager, etc. that the current transformer secondary terminal is open, and when the short switch S3 is closed, the secondary coil of the current transformer is shorted. The switching operation of the switches S1, S2, and S3 is such that each switch can be closed at the same time as the current flows through the relay coil by the electromagnetic induction phenomenon by the relay coil 61.

During the operation of the relay circuit unit 60, the counter electromotive force is generated in the relay coil 61, and such counter electromotive force adversely affects the sensing circuit 100 of the present invention. Therefore, diodes D5 and D6 are provided to reduce counter electromotive force generated in the relay coil 61.

On the other hand, when a current flows in the relay coil 61, the magnetism is generated to close the short-circuit switch S3. During this time, the manager finds an abnormal part of the current transformer and repairs it, and then presses a separately configured recovery switch 51 when the repair is completed. Release the self hold. That is, when the recovery switch 51 is pressed, the switch S1, S2, and S3 are returned to their original state because they are in an open state in relation to the applied power source 400. That is, the self-holding state of the relay is released by the return of S1, the alarm system circuit is stopped by the return of S2, and the short circuit state of the secondary terminal of the current transformer is released by the return of S3.

The power supply unit 400 supplies DC power to the sensing circuit. Precisely, as shown in FIG. 2, the first and second amplifiers are applied to the amplifiers 1 and 2 (OP-AMP 1,2), respectively, and connected to one terminal of the relay coil to open the secondary coil of the current transformer. Allow current to flow through the relay coil.

3 is a circuit diagram of an applied power supply unit 400 applied to a current transformer open detection circuit according to the present invention. As shown, the configuration of the power supply unit 400 is connected to the AC power source on the primary side of the transformer circuit, the reduced voltage is induced on the secondary side and rectified through the diode (D1, D2), and then the capacitors (C1, C2) It is configured to smooth and generate DC voltage + V _cc and -V _cc through constant voltage IC (Intergrated Circuit).

Referring to Figure 2 briefly described the operation of the open detection circuit of the present invention. When the current transformer secondary terminal (b-b ') is opened, the circuit protection unit 10, the rectifier circuit unit 20, the ultra-short amplifier 30, the comparative amplifier 40 using the open voltage V ₁ as an input signal. ), The current flows to the relay coil 61 in the relay circuit part 60 via the current conduction part 50, and an electromagnetic induction phenomenon occurs. do. The administrator can recognize the occurrence of the accident by the alarm system, and can perform repair work to eliminate the cause of the accident. After completing such repair work, if the self-holding state of the relay coil is released by pressing a separate recovery switch 51, the switches S1, S2, and S3 are opened to their original state, and thus the system is normally operated again.

While specific embodiments of the present invention have been described and illustrated, it is obvious that the present invention may be modified and implemented by those skilled in the art. However, such modified embodiments should not be understood individually from the technical spirit or viewpoint of the present invention, but should be interpreted as being included in the claims of the present invention.

By using the current transformer open detection circuit of the present invention, even if the current transformer secondary terminal is open, it can be short-circuited immediately to prevent damage to the current transformer and electric shock.

Since the present invention uses the current transformer secondary open voltage as an input signal, the present invention provides a current transformer open detection circuit capable of accurate detection at any time without being limited to the range of the rated value of the current transformer secondary current (5A in most cases).

The current transformer open detection circuit of the present invention configures an alarm switch that operates a separate alarm system circuit when the current transformer secondary terminal is opened so that an administrator or the like can immediately recognize the occurrence of an accident.

The current transformer open detection circuit of the present invention can maintain a short-circuit state of the secondary transformer current transformer until a separate measure by configuring a separate self-maintaining switch, so that a manager or the like can safely perform the repair work.

Claims (3)

A current transformer open detection circuit for shorting a secondary terminal by using the open voltage as an input signal when the current transformer secondary terminal is opened. A circuit protection unit for blocking an overvoltage and outputting a safety voltage to prevent damage of the sensing circuit from the open voltage having the overvoltage value; A rectifier circuit unit for outputting a DC voltage using the safety voltage output from the circuit protection unit as an input signal; An ultra-short amplification unit for amplifying the DC voltage value output by the rectifier circuit unit using a separate external applied power source; Comparing the amplified voltage amplified by the ultra-short amplification unit with the applied reference voltage to output a positive voltage when the amplified voltage is higher than the reference voltage and output a negative voltage when the amplified voltage is lower than the reference voltage. Comparative amplifier; A current conduction section for conducting current to a relay coil by a transistor operated by using the positive output voltage signal as a current control signal when the comparative amplifier outputs a positive voltage due to the opening of the secondary transformer current transformer; And When the current flows through the relay coil by the current conduction unit, the short circuit switch is closed to short the current transformer secondary terminal, and the relay circuit unit for maintaining the short circuit state of the secondary terminal until the self-maintenance switch is closed to recover the system; Characterized in that, the current transformer open detection circuit. 2. The circuit protection unit of claim 1, wherein the circuit protection unit includes: a varistor (TNR) for blocking an overvoltage, a current limiting resistor (R1), a first zener diode (ZD1) for controlling a trigger voltage in an AC positive cycle, and an AC unit. And a second zener diode (ZD2) for controlling the trigger voltage in the negative cycle. 2. The current transformer open detection circuit according to claim 1, wherein the relay circuit portion further comprises an alarm switch for operating an alarm system circuit for informing the opening of the secondary terminal of the current transformer as current flows through the relay coil.