KR20090131887A - Apparatus for automatically controlling lighting of led - Google Patents

Abstract

PURPOSE: An apparatus for automatically controlling lighting of an LED is provided to automatically control brightness of an LED according to surrounding brightness, thereby lowering power consumption. CONSTITUTION: A surrounding brightness detector(100) detects surrounding brightness. A lighting controller(200) controls driving according to a size of a detection voltage generated by detection of the surrounding brightness detector. A lighting driving unit(300) generates an LED(Light Emitting Diode) driving current according to driving control of the lighting controller.

Description

LED automatic lighting device {APPARATUS FOR AUTOMATICALLY CONTROLLING LIGHTING OF LED}

The present invention relates to an automatic LED light control device that can be applied to a lighting device or a signboard, and more particularly, to an automatic LED light control device that can lower power consumption by automatically adjusting the brightness of the LED according to the ambient brightness.

Recently, products that apply LEDs (Light Emitting Diodes) to lighting and signage are increasing, and the related market is increasing. In addition, LED has less power consumption, longer life and shape than the conventional fluorescent lamps, and has several advantages of lighting that does not contain harmful substances. Judging.

The conventional light control device in LED lighting has only a simple dimming function in which the user manually adjusts the illumination according to his / her own judgment regardless of the surrounding brightness condition.

However, such a conventional LED dimming device manually adjusts the illuminance of the LED irrespective of the ambient brightness, so that even if the ambient brightness becomes brighter, even if the user does not adjust the brightness continuously, the power is unnecessary. There is a problem that is consumed.

The present invention has been proposed to solve the above problems of the prior art, and an object thereof is to provide an LED auto-dimming device which can lower power consumption by automatically adjusting the brightness of the LED according to the ambient brightness.

One technical aspect of the present invention for achieving the above object of the present invention, the ambient brightness detection unit for detecting the ambient brightness; A dimming control unit controlling driving according to a magnitude of a detection voltage generated by the detection of the ambient brightness detector; And an dimming driver configured to generate an LED driving current according to the driving control of the dimming controller.

The LED auto-dimming device may further include an LED unit including a plurality of LEDs and driven according to a driving current from the dimming driver.

The ambient brightness detector may include: a sensitivity setting unit configured to set a detection sensitivity for detecting ambient brightness; And a photo sensor unit configured to receive external light and detect ambient brightness with the detection sensitivity set by the sensitivity setting unit.

The photo sensor unit may include a photo transistor having a collector connected to a power supply terminal receiving the operating power, a base receiving external light, and an emitter connected to the sensitivity setting unit.

The sensitivity setting unit may be connected to an emitter of the photo transistor and include a variable resistor that is user adjustable.

The dimming controller may include an A / D converter for converting an analog voltage detected by the detection of the ambient light detector into a digital voltage; And a microcomputer for controlling driving according to the magnitude of the digital detection voltage from the A / D converter.

When the digital detection voltage from the A / D converter is smaller than the first reference voltage, the microcomputer may drive a predetermined driving current to the magnitude of the difference voltage between the first reference voltage and the digital detection voltage. When the digital detection voltage is not smaller than the first reference voltage, the lighting drive is stopped.

According to the present invention, by automatically adjusting the brightness of the LED according to the ambient brightness, there is an effect that can lower the power consumption.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is not limited to the embodiments described, and the embodiments of the present invention are used to assist in understanding the technical spirit of the present invention. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

1 is a block diagram of an automatic LED light control device according to the present invention.

Referring to FIG. 1, the LED auto-dimming device according to the present invention includes a peripheral brightness detector 100 for detecting ambient brightness and a magnitude of a detection voltage Vd generated by the detection of the ambient brightness detector 100. And a dimming control unit 200 for controlling driving, and a dimming driving unit 300 for generating an LED driving current according to the driving control of the dimming control unit 200.

In addition, the LED auto-dimming device may include a plurality of LEDs, and may include an LED unit 400 driven according to a driving current from the dimming driver 300.

The ambient brightness detector 100 detects ambient light by receiving external light with a sensitivity setting unit 110 for setting a detection sensitivity for detecting ambient brightness and a detection sensitivity set by the sensitivity setting unit 110. The photo sensor unit 120 may be included.

The photo sensor unit 120 includes a collector connected to a power supply terminal receiving the operating power Vcc, a base receiving external light, and an emitter connected to the sensitivity setting unit 110. ) May be included.

The sensitivity setting unit 110 may include a variable resistor connected to an emitter of the photo transistor PT, a user adjustable variable, and a resistor connected in series with the variable resistor.

The dimming control unit 200 includes an A / D converter 210 for converting an analog detection voltage Vd generated by the detection of the ambient brightness detector 100 into a digital detection voltage, and the A / D converter. The microcomputer 220 may control driving according to the magnitude of the digital detection voltage Vd from the D converter 210.

The microcomputer 200 may detect the first reference voltage and the digital detection voltage Vd when the digital detection voltage Vd from the A / D converter 210 is smaller than a preset first reference voltage. The driving current may be generated in a predetermined magnitude of the difference voltage, and the driving of the lighting may be stopped when the digital detection voltage Vd is not smaller than the first reference voltage.

2 is an operation flowchart of the LED automatic dimming device of the present invention.

In FIG. 2, S100 is a step of receiving a detection voltage Vd.

S200 is a step of comparing the detected voltage Vd of the digital form with the first reference voltage.

When the digital detection voltage Vd is smaller than the preset first reference voltage, S300 generates a driving current that is preset to the magnitude of the difference voltage between the first reference voltage and the digital detection voltage Vd. This step controls the brightness.

S400 may stop the driving of the lighting when the digital detection voltage Vd is not smaller than the first reference voltage.

S500 is a step of determining whether to stop the operation. In this step, if the operation is not stopped, the process from step S100 to step S300 is repeatedly performed, and if the operation is stopped, the entire process is terminated.

3 is an external illuminance-detection voltage relationship graph according to the present invention.

3 shows an external illuminance-detection voltage relationship graph for explaining the operation of the ambient light detector 100 according to the present invention. The external illuminance-detection voltage relationship graph shows a relationship in which the detected voltage increases as the external illuminance increases. It is showing.

4 is a graph illustrating various external illuminance-detection voltage relationships according to the sensitivity setting of the present invention.

4 illustrates an example in which the inclination of the external illuminance-detection voltage relationship graph is different from each other according to the sensitivity setting of the sensitivity setting unit 110 of the ambient brightness detector 100 of the present invention. Among the three graphs, G1 is an external illuminance-detection voltage relation graph having an intermediate slope, G2 is an external illuminance-detection voltage relation graph having the largest slope, and G3 is an external illuminance-detection voltage relation graph having the smallest slope. All.

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

1 to 4, the LED auto-dimming device according to the present invention will be described. In the LED auto-dimming device of the present invention shown in FIG. 1, the ambient brightness detector 100 detects the ambient brightness to detect the detected voltage ( Vd) is output to the dimming control unit 200.

For example, when the ambient brightness detector 100 includes a sensitivity setting unit 110 and a photo sensor unit 120, the sensitivity setting unit 110 is surrounded by the photo sensor unit 120. Detection sensitivity for detecting brightness can be set. The photo sensor unit 120 may receive ambient light with the detection sensitivity set by the sensitivity setting unit 110 to detect ambient brightness.

In this case, the photo sensor 120 includes a collector connected to a power supply terminal receiving the operating power supply Vcc, a base receiving external light, and an emitter connected to the sensitivity setting unit 110. (PT), in this case, when the photo transistor PT receives external light, the photo transistor PT is turned on so that the current (I) is applied to the photo transistor PT and the sensitivity setting unit 110 at the operating power source Vcc. Will flow through.

That is, the current I is detected as the detection voltage Vd by the sensitivity setting unit 110. In this case, the sensitivity setting unit 110 is connected to the emitter of the photo transistor PT, and the user is detected. In the case where the variable resistance and the resistance are adjustable, the slope of the detection voltage Vd due to the current I flowing may vary according to the resistance value of the variable resistor.

Referring to the external illuminance-detection voltage relationship graph shown in FIG. 3, it can be seen that the detection voltage at the ambient brightness detector 100 is detected as the external illuminance is higher.

Referring to FIG. 4, when the sensitivity is set differently by adjusting the variable resistance in the sensitivity setting unit 110 of the ambient brightness detection unit 100 of the present invention, as shown in FIG. 4, external illumination is obtained. -The slopes of the detected voltage relationship graphs are different.

For example, in general, set the sensitivity corresponding to the graph of G1 in general, and set the sensitivity corresponding to the graph of G2 in the case where the external light amount is large and change is severe. You can set the sensitivity corresponding to the graph.

Of the three graphs shown in FIG. 4, G1 is an external illuminance-detection voltage relation graph having an intermediate slope, G2 is an external illuminance-detection voltage relation graph having the largest slope, and G3 is an external illuminance having the smallest slope. -Detected voltage relationship graph.

In addition, referring to FIG. 1, the dimming controller 200 controls driving of the dimming driver 300 according to the magnitude of the detection voltage Vd generated by the detection of the ambient brightness detector 100.

For example, when the dimming control unit 200 includes the A / D converter 210 and the microcomputer 220, the A / D converter 210 may detect the ambient brightness detector 100 by detecting the ambient brightness detector 100. The generated analog detection voltage Vd is converted into a digital detection voltage and output to the microcomputer 220. The microcomputer 220 may control the driving according to the magnitude of the digital detection voltage Vd from the A / D converter 210.

1 and 2, the microcomputer 200 receives a digital detection voltage Vd from the A / D converter 210 (S100) and the A / D converter. The digital detection voltage Vd from 210 is compared with a preset first reference voltage (S200), and the digital detection voltage Vd from the A / D converter 210 is preset. When the reference voltage is smaller than the reference voltage, a driving current is set to generate a predetermined driving current in the magnitude of the difference voltage between the first reference voltage and the digital detection voltage Vd (S300), and the digital detection voltage ( When Vd) is not smaller than the first predetermined reference voltage, the lighting driving may be stopped (S400).

On the other hand, the microcomputer 200 determines whether the operation is stopped, and if the operation is not stopped, repeatedly performs the processes from step S100 to step S300, and when the operation is stopped (S500).

The dimming driving unit 300 generates an LED driving current according to the driving control of the dimming control unit 200 and supplies it to the LED unit 400.

As a result, the drive current from the dimming driver 300 generates a small drive current when the amount of external light is large, whereas a large drive current is generated when the external light amount is small.

Accordingly, the LED unit 400 may include a plurality of LEDs, which are driven according to the driving current from the dimming driver 300.

In the present invention as described above, it is possible to automatically adjust the brightness of the LED according to the external light amount, there is an advantage that can reduce the power consumption to a minimum.

1 is a block diagram of an automatic LED light control device according to the present invention.

2 is an operation flowchart of the LED automatic dimming device of the present invention.

3 is an external illuminance-detection voltage relationship graph according to the present invention.

4 is a graph illustrating various external illuminance-detection voltage relationships according to the sensitivity setting of the present invention.

Explanation of symbols on the main parts of the drawings

100: ambient brightness detection unit 110: sensitivity setting unit

120: photo sensor unit 200: dimming control unit

210: A / D Converter 220: Microcomputer

300: dimming drive unit 400: LED unit

PT: Phototransistor

Claims (7)

An ambient brightness detector for detecting ambient brightness; A dimming control unit controlling driving according to a magnitude of a detection voltage generated by the detection of the ambient brightness detector; And Dimming driver for generating a LED driving current according to the drive control of the dimming controller LED auto dimmer comprising a. The method of claim 1, wherein the LED automatic dimming device, And a plurality of LEDs, the LED auto-dimming device further comprising an LED unit driven according to a driving current from the dimming driving unit. The method of claim 1, wherein the ambient brightness detector, A sensitivity setting unit for setting a detection sensitivity for detecting ambient brightness; And A photo sensor unit which receives ambient light and detects ambient brightness with the detection sensitivity set by the sensitivity setting unit. LED auto-dimming device comprising a. The method of claim 3, wherein the photo sensor unit, And a photo transistor having a collector connected to a power supply terminal receiving the operating power, a base receiving external light, and an emitter connected to the sensitivity setting unit. The method of claim 4, wherein the sensitivity setting unit, And a user variable adjustable resistor connected to the emitter of the phototransistor. The method of claim 1, wherein the dimming control unit, An A / D converter for converting an analog voltage detected by the ambient brightness detector into a digital voltage; And A microcomputer that controls driving in accordance with the magnitude of the digital detection voltage from the A / D converter. LED auto-dimming device comprising a. The method of claim 6, wherein the microcomputer When the detected voltage in the digital form from the A / D converter is smaller than the first predetermined reference voltage, a driving current preset to the magnitude of the difference voltage between the first reference voltage and the detected voltage in the digital form is generated, and The LED auto-dimming device is characterized in that the lighting drive is stopped when the digital detection voltage is not smaller than the first reference voltage.

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