KR910002761Y1 - Power circuit - Google Patents

Abstract

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Description

System protection circuit according to abnormal power

The accompanying drawings are circuit diagrams of the present invention.

* Explanation of symbols for main parts of the drawings

2D: Zener Diode D ₁ , D ₂ : Diode

R ₁ , R ₂ : Resistance RY: Relay

PC: Photocoupler SW: Relay Switch

The present invention relates to a system protection circuit according to an abnormal power supply, and more particularly, to a system protection circuit for protecting a system driven by a DC voltage when an overvoltage, reverse voltage or alternating voltage is applied. In general, when overvoltage, reverse power or AC power is applied to a system driven by DC power, the system is fixed. In this case, a system protection circuit for protecting the system has been added and used.

That is, fuses, regulators, and reverse bias protection circuits have been used for the constant voltage and reverse power of the system.

However, the conventional system protection circuit has caused a problem because the integrated circuit is also composed of a complex circuit.

In the present invention, the "reverse power supply" refers to a power supply when a phase of a potential difference provided to two input terminals of a DC power supply driving system is inverted and provided.

Accordingly, it is an object of the present invention to provide a system protection circuit that can protect a system driven by a DC power source when an overvoltage, reverse power source or AC power source is applied.

The following describes in detail an embodiment of the present invention with reference to the accompanying drawings.

The accompanying drawings show a system protection circuit diagram of an abnormal power supply according to the present invention, wherein a zener diode ZD for detecting a constant voltage, a photo coupler PC, and a variable resistor R ₁ are disposed between two terminals of a source power supply V ₁ and V _2. It is connected in series, and the reverse power sensing diode D ₁ is connected between the emitter and the collector of the photocoupler PC of the photocoupler PC. This collector is also connected to the V ₂ power input terminal through the resistor R ₂ and relay RY. The relay switch SW is connected to select the V ₁ source and the V ₂ power through the relay RY, and a diode D ₂ is connected to prevent the reverse power from being applied to the system when the V ₂ power is applied to the reverse voltage. have.

_Unmarked V _1s and V _2s are the power supply terminals provided to the two input terminals of the system, V _1s is connected to the contact terminal of the switch, V _2s is connected to the anode terminal of the diode D ₂ , respectively.

In such a configuration, when a constant voltage, which is a normal power source, is applied to the source input terminal, for example, when the voltage V ₁ is greater than or equal to the reference voltage larger than the voltage V ₂ , the zener diode ZD is turned on, and at this time, the light emitting diode of the photocoupler PC is turned on. It emits light.

Here, the adjustment of the reference voltage is set by adjusting the variable resistor R ₁ .

In addition, as the light receiving transistor of the photocoupler PC is turned on, the V ₁ power flows through the relay RY to the applying terminal of the V ₂ power, so that the relay RY is operated so that the contact of the relay switch SW is connected to the selection terminal.

Therefore, the normal power supply of the V ₁ power supply and the V ₂ power supply are provided to the V _1s terminal and the V _2s terminal of the system, respectively.

On the other hand, when the reverse power is applied, for example, when the voltage V ₁ is smaller than the voltage V ₂ , the zener diode ZD is not conducting and the light emitting diode of the photocoupler PC does not emit light.

However, since the power supply V ₂ flows through the resistor R ₂ and the diode D ₁ via the coil RY, the resistor R ₂ selects a resistance value having an appropriate capacity as a protection resistance of the relay so that the operation of the relay RY is disabled.

Thus, the relay switch SW is the system to make the contact terminal to which the B selection, so connected to the terminal standing in the system V _1s terminal, the V ₂ relay RY coarse power V _2s terminal is provided with a V ₂ power supply half-wave current by the D ₂ Protect.

When the AC power is applied to the source terminal, the relay RY is operated because the zener diode ZD and the diode D ₁ are operated by the rms value of the AC signal.

In order to prevent the reverse power supply, the diode D ₂ is provided with the V _2s terminal of the system by half-wave rectifying the V ₂ AC power supply so that the equipotential is applied in the system as when the normal voltage of DC is applied.

As described above, according to the present invention, the system driven by the DC power source can be protected even when the over-power source, the reverse power source and the AC power source are applied. In addition, the circuit configuration is simple and the cost reduction effect is also provided.

Claims (1)

In a protection circuit of a system driven by a DC power supply, a reverse power supply is detected between a zener diode ZD for constant voltage sensing and a collimator and an emitter of a phototransistor transistor of a photocoupler PC between two terminals to which a source power source V ₁ and V ₂ are applied. The diode D ₁ is connected, and this collector signal is connected to the resistor R ₂ and the relay RY and V ₂ power input terminals, and the relay switch SW connected to the V _1s terminal of the system is connected through the V ₁ power supply and the relay RY. A system protection circuit according to an abnormal power supply, connected to select the V ₂ power supply, and connecting a diode D ₂ to prevent the reverse power from being applied to the V ₂ terminal of the system when the V ₂ power supply is the reverse power supply.