KR20110008222U - DC timer Relay Circuit - Google Patents

Abstract

The present invention is a DC power supply timer circuit for supplying power only for the time required for various devices using the DC power supply and cut off the power supply after a certain time to eliminate unnecessary current consumption.
In implementing the above operation, a relay, a transistor for controlling the relay, a thyristor for controlling the transistor, a photocoupler for controlling the thyristor, a capacitor connected to the relay to charge the current to drive the relay, etc. The relay can be operated for a long time even with a small capacitor without being affected by.

Description

DC power supply timer circuit {DC timer Relay Circuit}

The present invention relates to a circuit for controlling a relay using various semiconductor devices and capacitors, including a thyristor (SCR) device, and driving a relay for a predetermined time to cut off after supplying power to a specific circuit when an electrical signal is input.

There are many conventional techniques for controlling a relay by using charges charged in the capacitor, but a large amount of current required to control the relay consumes a disadvantage of increasing the capacity of the required capacitor.

The thyristor to be used in the present invention is called a silicon controlled rectifier (SCR) and is also viewed as a kind of silicon controlled rectifier. Consists of three terminals: anode, cathode, and gate.When a signal is applied to the gate, a reverse current is applied to the main circuit or the current is holding current without supplying a continuous gate current. The state of energization is maintained until it falls below.

On the other hand, the thyristor may malfunction when the energized state is cut off due to the influence of electrical noise generated in the peripheral circuit.

The present invention prevents the malfunction of the thyristors as described above and inputs them to the base terminals of the transistors that directly control the relays by using the thyristors as the charges of the charged capacitors. By supplying the power supply to the main circuit for a certain time by driving the relay for a certain time, we propose a circuit that cuts off the power.

In order to solve the above problems, the present invention connects an input signal to an input of a photocoupler and connects an output signal of the photocoupler to a gate terminal of the thyristor through a resistor in order to prevent a malfunction of the thyristor. If the output signal from the cathode terminal of the thyristor obtained here is connected to the base terminal of the transistor which directly controls the relay, it is possible to control the relay for a long time even with the charge of the capacitor of small capacity.

In the above, the charge charged in the capacitor is characterized in that applied to the anode terminal of the thyristor.

As described above, the present invention enables to control a relay for a long time even with a small capacitor, thereby providing an effect of reducing unnecessary power consumption of various devices by supplying a current to a specific circuit for a predetermined time and shutting off power.

1 is a circuit diagram showing the present invention.

Hereinafter, the configuration and operation of the present invention will be described in detail.

1 is a circuit diagram illustrating controlling a relay according to the present invention.

The present invention is connected to the relay (1) and the capacitor (9) connected to the normal closed terminal (NC) of the relay (1), the transistor 8 directly controlling the relay, the resistor c (7) is connected to control the transistor 8 A photocoupler 5 connected to the thyristor 2 and a resistor b 6 to control the thyristor 2, a resistor a (4) connected to an input of the photocoupler 5 to receive an electrical signal,

When the electric signal is input is composed of a diode (3) to help the charging of the capacitor (9).

 On the other hand, the positive terminal of the DC power supply and one terminal of the input terminal (coil part) of the relay are connected to the common terminal (COM terminal) of the relay 1.

Since the relay 1 normally has a COM terminal connected to the normal closed terminal, the condenser 9 is fully charged and the normal open terminal is cut off so that power is not output to the normal open terminal. Power is not applied to the specific circuit connected.

When an electrical signal of the positive pole is applied to the resistor a (4), current flows to the input of the photocoupler 5, and light is generated from the light emitting part inside the photocoupler, so that the terminal of the light receiving part is conducted. Therefore, the positive current of the DC power source connected to the light receiving unit passes through the resistor b 6 to the gate terminal of the thyristor 2, and the thyristor 2 is in a conductive state. The anode terminal of the thyristor 2 is connected to the positive side of the capacitor 9 to direct the positive charge of the capacitor to the cathode terminal, and to the base terminal of the transistor 8 for controlling the relay 1 via the resistor c (7). To supply. The transistor 8 is in a conductive state

Current flows in the coil portion of the relay 1 to drive the relay 1.

As a result, the positive pole power of the COM terminal of the relay 1 is connected to the normal open terminal (NO) side, and power is supplied to the normal open terminal to supply power to a specific device.

At this time, even if the electric signal input to the resistor a (4) is broken, the relay 1 is driven until the electric charge of the capacitor 9 is completely consumed due to the characteristics of the thyristor 2.

The time for which the relay is driven can be adjusted according to the capacity of the capacitor 9.

On the other hand, since the thyristor 2 does not directly drive the relay 1 but supplies current to the base terminal of the transistor 8 that drives the relay 1, the capacitor 9 has a large capacity even though the capacity of the capacitor 9 is not large. 1) can be driven.

The thyristor 2 may malfunction because the gate terminal is affected by noise. The thyristor 2 is a characteristic of a device in which the input and the output of the photocoupler 5 are separated. You can adjust to overcome this.

When the electric charges charged in the condenser 9 are exhausted and the relay 1 is turned off, the positive pole power is again connected to the normal closed terminal NC of the relay 1, so that the condenser 9 is fully charged again and the resistor a Wait until the signal is input to (4).

On the other hand, the diode 3 charges the capacitor 9 when the signal is input again before the relay 1 is turned off because the capacitor 9 is completely consumed after the signal is input. Play a role.

1: relay 2: thyristor
3: diode 4: resistor a
5: photocoupler 6: resistance b
7: resistor c 8: transistor
9: condenser

Claims (1)

In a DC power supply timer circuit that receives a signal and drives a relay with a current charged in a capacitor to supply power for a certain time and cut it off again:
Photocoupler that receives the signal and delivers the signal without noise by the thyristor,
A DC power supply timer circuit comprising a thyristor for driving a relay and applying a charge of the capacitor to a base terminal of the transistor so that the relay can control the relay for a long time with the charge charged in the capacitor even with a small capacitor.

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