KR20040044586A - Auto on/off circuit - Google Patents

Abstract

PURPOSE: An automatic flickering circuit using light is provided to reduce the power consumption by comparing the current of an input terminal to the current of the illumination detection unit to control the current according to the intensity of illumination. CONSTITUTION: An automatic flickering circuit using light includes an illumination detection unit, a comparator, a switching unit, and a rectification circuit unit. The illumination detection unit(10) detects the indoor intensity of illumination by using a light receiving device. The comparator(20) is used for comparing the current of the illumination detection unit to the current of a power supply. The amplification unit(30) amplifies the output current of the comparator. The switching unit(40) selects one of the current of an input terminal and the current of the amplification unit. The rectification circuit unit includes a transformer and a diode bridge to convert the AC current of the input terminal to the DC current.

Description

Automatic flashing circuit using light {Auto on / off circuit}

The present invention relates to an automatic flashing circuit using light, and more particularly, an optical to automatically cut off or conduct power to an outlet or a power strip that performs a relay function of supplying electricity to an electronic device according to the brightness of an indoor illuminance. It relates to a power automatic flashing circuit using.

In general, most of the electrical and electronic devices used indoors are connected to the plug by device using a wall outlet or a power strip connected to the outlet is used according to the purpose.

However, if you want to end the use, operate the own switch installed by each device or operate the switch installed in the power strip to cut off the power of the connected devices collectively, and another way to disconnect the plug from the outlet or power strip Discontinue use.

On the contrary, when the user wants to use the electric electronic device, the user operates in the reverse order to the above process, thereby achieving the desired purpose.

However, as described above, when only the switch for each battery electronic device or the switch of the power strip is operated and turned off or the user does not detach the plug from the outlet or the power strip, the predetermined power is always supplied for the next use in a predetermined electric electronic device. Therefore, it becomes a waste of electric energy, and the method of detaching the plug into an outlet or a power strip also causes a user's dissatisfaction due to the inconvenience of manually removing the plug.

An object of the present invention for solving the above problems is to provide a user convenience when using the electrical electronics indoors to perform a relay function for supplying power to various electrical electronics to save electrical energy and prevent fire If the indoor lighting is bright inside the outlet or power strip, the current flows through the outlet or power strip, and if the interior lighting is dark, the auto-flashing function using the light to cut off the current to the outlet or power strip allows the user to work. It is an aim to provide a power automatic flashing circuit using light that can automatically cut off the power without operating the device switch or removing the plug.

1 is a power automatic flashing circuit using light according to the present invention

* Description of the symbols for the main parts of the drawings *

10: illuminance detection unit 20: comparison unit 30: amplification unit

40: switching unit 50: rectifier circuit unit

In order to achieve the above object, the automatic power supply circuit using light according to the present invention includes an illuminance detection unit for detecting illuminance according to brightness of light;

A comparator comparing the output voltage of the illuminance detection signal with the reference voltage;

An amplification unit configured to generate a detection signal for operating a gate of the thyristor element by operating a relay by comparing the illumination detection signal input to the comparator with a reference signal;

Switching unit for controlling the input power and output voltage bidirectional current and

It characterized in that it comprises a rectifier circuit unit for converting the alternating current input from the power supply to direct current to the relay.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a power automatic flashing circuit using light according to the present invention, and as shown in the configuration of the circuit, the illuminance detector 10, the comparator 20, the amplifier 30, the switch 40, and Including the rectifier circuit unit 50 is composed of a predetermined diode, a capacitor, and an electronic component such as a resistor to support the component so that current flows only in a specific direction.

The illuminance detector 10 further includes a light receiving element and a resistor to detect illuminance according to the brightness of the light.

The comparator 20 is configured such that when the brightness of the light falls below a predetermined illuminance, the comparator compares the input voltage with a preset reference voltage and outputs a signal only when the comparator is higher than the reference voltage. It is adjusted to be different according to the resistance value.

When the signal output from the illuminance detection unit 10 is input to the comparator, the amplifying unit 30 generates a signal according to a result compared with the reference signal to support the operation of the switching unit.

The switching unit 40 serves to control the bidirectional current of the input voltage input from the illuminance detector 10 through the amplification unit and the voltage supplied from the power source, consisting of a triac, a resistor, and a diode bridge.

Since the current input from the power supply is AC, the rectifier circuit unit 50 is rectified by a transformer and a diode bridge to convert it into a direct current, and then used as a power source for driving a relay.

Looking at the operation of the automatic power point lighting circuit using light according to the present invention configured as described above

First, if the power of the auto flasher is cut off

The current input from the power supply side is input to the rectifier circuit part 50 composed of a transformer (T ₁ ) and a diode bridge (BG ₁ ), rectified from AC to DC, and then relayed through a resistor (R ₁ ) and a capacitor (C ₁ ). RY ₁ is used as an operating power source and the zener diode ZD ₁ prevents the reverse current from flowing into the rectifier circuit.

Some of the current is variable through the gate of the resistor R ₁₁ and the thyristor element Q ₃ through the triac Q ₁ of the switching unit 40 and the resistor R ₄ connected in parallel and through the diode bridge BG ₂ . The thyristor element Q ₃ is output to the resistor VR ₁ , and the gate of the thyristor element Q ₃ is connected to the relay RY ₁ to connect or short-circuit the relay according to the current change of the light receiving element Cds of the illuminance detection unit 10. The thyristor element Q ₃ utilizes a property such that current flows only in the direction of the resistor R ₁₀ in the switching unit 40 unless the anode voltage becomes zero.

The input terminal current passing through the thyristor element Q ₃ and the variable resistor VR ₁ is a comparator comparing the voltage difference between two signals inputted to compare the current input from the light receiving element Cols of the illuminance detector 10. It is entered

At this time, the current change input from the light receiving elements (Cols) is because the light intensity is the brightest, so the resistance is the least, so the current flows a lot. Since the current of the power supply stage is less than the current of the illuminance detector as described above, the comparator (U ₁ B) passes the current of the illuminance detector to the amplifier through the resistor (R ₉ ) and the capacitor (C ₃ ) connected in parallel with the diode (D ₂ ). Output

The thyristor element (SCR) gate is short-circuited with the relay by the current amplified by the amplifier including the operational amplifier U ₁ A so that the current at the power supply terminal is transistor Q ₂ , relay RY ₁ , and zener diode ( ZD ₂ ) through which the current (R ₂ , R ₃ ) switched current is not output to the output terminal, so that the auto flasher using light is blocked.

On the other hand, when the auto-flashing circuit is conducted, the current input from the input terminal to the switching unit is input to the comparison unit through the resistor R ₁₁ , the thyristor element Q ₃ , the resistor R ₁₀ and the variable resistor VR ₁ . Since the light receiving element of the illuminance detection unit is in a dark state of the room illuminance, the light intensity is the weakest, so the resistance is maximized, and the current becomes relatively very small.

Therefore, since the current of the illuminance detector is smaller than the current input from the input terminal, the current passing through the amplifying unit is connected to the gate of the thyristor element Q ₃ and the relay RY ₁ , so that the current of the switching unit flows in and is supplied with power to the output terminal. As it works, power is connected to the outlet or the power strip so that the electric and electronic equipment can be used.

As described above, the automatic power-flashing circuit using light according to the present invention compares the current input from the input terminal with the current detected from the illuminance detection unit. By implementing the technology opposite to the technology, users who use various electronic devices in the room can not only save electricity from the power-consuming device even if they do not operate the switch or operate the switch, but also contribute to the prevention of fire. That is a very useful invention.

Claims (5)

In the power automatic flashing circuit using light that is automatically turned on or cut off depending on the difference in room illuminance, An illuminance detector 10 detecting an illuminance of the room through a light receiving element; Comparing unit 20 for comparing the current output from the illuminance detector and the current input from the power supply terminal, An amplifier 30 for amplifying the current output from the comparator and a switching unit 40 for selecting and outputting any one of the current of the input terminal and the current of the amplifier; Auto-flashing circuit using light, characterized in that it consists of a rectifying circuit section consisting of a transformer and a diode bridge for supplying power used for the operation of relays to conduct the circuit conduction and blocking functions by directing the alternating current of the input stage to DC current. . The power illuminator circuit of claim 1, wherein the illuminance detection unit comprises a light receiving element and a resistor. The power supply auto-flashing circuit using light according to claim 1, wherein the comparator 20 comprises an operational amplifier, a resistor, a diode, and the like. The power supply auto-flashing circuit using light of claim 1, wherein the amplifying unit (30) is connected to an operational amplifier and a resistor, and further includes a transistor and a zener diode. The power supply auto-flashing circuit using light according to claim 1, wherein the switching unit comprises a triac, a resistor, and a diode bridge.