KR101682932B1 - Apparatus for controlling electric current using light emitting diode - Google Patents

Abstract

A current control device for a light emitting diode lighting according to an embodiment of the present invention includes a light emitting diode module connected to a power supply unit for outputting power and having at least one light emitting diode device; A constant current circuit part connected to the light emitting diode module and controlling an amount of current applied to the light emitting diode module; And a control unit for controlling the power supply unit or controlling the constant current circuit unit such that the light emitting diode device is turned on based on a preset light amount of the light emitting diode module.

Description

TECHNICAL FIELD [0001] The present invention relates to a current control device for a light emitting diode (LED)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a current control device for a light emitting diode (OLED) lighting, and more particularly, to a current control device for a light emitting diode (OLED) lighting device for controlling a constant amount of current to be applied to a light emitting diode module.

In general, a light emitting diode has advantages of energy saving effect compared to conventional illumination and can be used semi-permanently. However, in order to use it as an illumination, a light emitting diode module, which is a point light source, In addition, since the forward voltage fluctuates according to the heat generated by the self-heating when emitting light, the LED module must be prevented from being damaged by supplying a constant amount of current to the voltage fluctuation. A switching method or a linear method is applied so that a constant current is applied to the light emitting diode module.

When a constant current is applied using the switching method, a constant current can be supplied to the LED module due to the variation of the input voltage. However, flicker may occur in the optical output due to the overlapping of switching noise in the output current , Dimming control is performed by PMW (Pulse Width Modulation Dimming), which is a method of varying the average light output amount according to the ratio of the turn-on and turn-on times of turning on and off the light at high speed, There is a disadvantage that the control becomes unstable.

However, when the voltage of the power supply changes or the voltage of the light emitting diode module changes, a high temperature is generated in the constant current circuit and is broken or the operation of the constant current is unstable. However, when the constant current is applied using the linear method, There is a drawback.

In order to solve the above-mentioned problems, a current control device for a light emitting diode lighting according to an embodiment of the present invention aims to solve the following problems.

By controlling the constant current to be applied to the light emitting diode module based on the amount of light preset by the user, flicker does not occur, power loss is minimized, and the light emitting diode module is turned on according to the amount of light desired by the user, And a current control device for a light emitting diode.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and method for controlling the same.

A current control device for a light emitting diode lighting according to an embodiment of the present invention includes a light emitting diode module connected to a power supply unit for outputting power and having at least one light emitting diode device; A constant current circuit part connected to the light emitting diode module and controlling an amount of current applied to the light emitting diode module; And a control unit for controlling the power supply unit or controlling the constant current circuit unit such that the light emitting diode device is turned on based on a preset light amount of the light emitting diode module.

The control unit may control the constant current circuit unit on the basis of the amount of current calculated according to a previously entered calculation formula.

The control unit may control the constant current circuit unit based on a current amount calculated according to a look-up table input in advance.

Wherein the constant current circuit comprises: a switching device for adjusting an amount of current applied to the light emitting diode module; A series resistor connected to the switching element; A comparator in which an offset voltage exists between an inverting input terminal to which a first output signal of the first voltage is inputted and a non-inverting input terminal to which a second output signal of the control section is input; And a voltage converter for applying a voltage equal to or higher than the offset voltage to the output voltage of the series resistor to convert the voltage into the first voltage, wherein the comparator compares the first output signal with the second output signal, Can be controlled.

A communication unit for receiving a first set value of a preset light quantity of the light emitting diode module by a wired or wireless serial data signal and converting the first set value into a first signal and transmitting the first signal to the control unit; And a display unit for displaying a preset light amount of the light emitting diode module based on the first set value received from the communication unit.

An input unit for receiving a second set value of a preset light amount of the light emitting diode module, converting the second set value into a second signal, and transmitting the second signal to the control unit; And a display unit for displaying a preset light amount of the light emitting diode module based on the second set value received from the input unit.

The current control device for a light emitting diode lighting according to an embodiment of the present invention controls the magnitude of the output power supplied to the LED module or controls the current to be applied to the LED module so that flicker does not occur and power loss can be minimized, There is an effect that the light emitting diode module can be stably turned on based on the light amount.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a circuit diagram schematically showing a current control device for a light emitting diode (LED) lighting according to an embodiment of the present invention,
FIG. 2 is a circuit diagram specifically showing a constant current circuit portion of the current control device for the light emitting diode lighting of FIG. 1,
FIG. 3 is a diagram showing a communication unit of the current control apparatus for the light emitting diode lighting of FIG. 1,
4 is a view showing an input portion of the current control device for the light emitting diode lighting of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be noted that the accompanying drawings are only for the purpose of facilitating understanding of the present invention and should not be construed as limiting the scope of the present invention.

FIG. 1 is a circuit diagram schematically showing a current control device for a light emitting diode lighting according to an embodiment of the present invention, FIG. 2 is a circuit diagram specifically showing a constant current circuit part of the current control device for the light emitting diode lighting of FIG. 1, FIG. 4 is a view showing an input portion of the current control device for the light emitting diode lighting of FIG. 1; FIG.

The current control device for a light emitting diode lighting according to an embodiment of the present invention includes a light emitting diode module 200, a constant current circuit unit 300, a control unit 400, a communication unit 500, an input unit 600, 700).

The light emitting diode module 200 is connected to a power supply unit 100 for outputting power, and has at least one light emitting diode device. The light emitting diode module 200 includes a series or parallel combination of light emitting diode devices. When power is supplied from the power supply unit 100, the light emitting diode devices are lit and emit light. Here, the power supply unit 100 converts the voltage of the input DC power supply to a forward voltage of the light emitting diode module 200 to a voltage value which is capable of stably operating the constant current circuit unit 300, To the module (200).

The constant current circuit unit 300 is connected to the light emitting diode module 200 and controls the amount of current applied to the light emitting diode module 200. More specifically, the constant current circuit unit 300 includes a switching device 310, a series resistor 320, a comparator 330, and a voltage converter 340.

The switching device 310 adjusts the amount of current applied to the light emitting diode module 200. The switching element 310 is turned off to adjust the amount of current applied to the light emitting diode module 200 by controlling the degree of blocking or turning on the current. As the switching element 310, a transistor such as a bipolar junction transistor (BJT) or a field effect transistor (FET) may be applied.

The series resistance 320 is connected to the switching element 310. The series resistor 320 is disposed between the switching element 310 and the ground signal 350 and converts the current that conducts the switching element 310 into a voltage. That is, the series resistor 320 functions as a shunt resistor.

The comparator 330 generates an offset voltage between the inverting input terminal 331 to which the first output signal of the first voltage V is inputted and the non-inverting input terminal 332 to which the second output signal of the controller 400 is input exist. Here, the first output signal may be a voltage value of the first voltage (V), and the second output signal may be a voltage value supplied to the light emitting diode module 200 under the control of the controller 400.

The voltage converter 340 applies a voltage equal to or higher than the offset voltage to the output voltage V2 of the series resistor 320 to convert the voltage into the first voltage V. [ That is, the voltage converter 340 adds the voltage higher than the offset voltage to the output voltage of the series resistor 320 to convert the voltage into the first voltage V and supplies the converted first voltage V to the inverting input terminal 331).

In this embodiment, the comparator 330 compares the first output signal with the second output signal to control the switching element 310. [

For example, the comparator 330 receives the first output signal from the inverting input terminal 331 and the second output signal from the non-inverting input terminal 332, and compares the first output signal with the second output signal . When the difference between the first output signal and the second output signal is a positive value, a first control signal for controlling the amount of current to be conducted to the switching device 310 is increased. When the first output signal and the second output signal The amount of current flowing through the switching element 310 is reduced when the difference between the first control signal and the second control signal is negative. Accordingly, the switching element 310 operates to increase the amount of current passing through the first output signal, decreases the amount of current passing through the second output signal, decreases the amount of current applied to the LED module 200 .

The control unit 400 controls the power supply unit 100 or controls the constant current circuit unit 300 so that the light emitting diode device is turned on based on a preset light amount of the light emitting diode module 200.

Specifically, the controller 400 adjusts the voltage of the output power from the power supply unit 100 to the light emitting diode module 200 so that the light emitting diode device is turned on based on the amount of light preset by the user, 200 to regulate the amount of current through the constant current circuit unit 300 so that a constant current is applied. That is, the control unit 400 measures the voltage V1 between the light emitting diode module 200 and the switching device 310 to adjust the voltage of the output power from the power supply unit 100, And the output voltage V2 of the series resistor is measured between the series resistors 320 to control the constant current circuit unit 300 to have a constant current.

Thus, flicker does not occur and power loss can be minimized by controlling the size of the output power supplied to the light emitting diode module 200 or by controlling the current to be applied to a constant current, and the light emitting diode module There is an effect that the lamp can be stably turned on.

In the present embodiment, the control unit 400 controls the constant current circuit unit 300 based on the amount of current calculated according to a calculation formula input in advance. That is, the control unit 400 calculates a current amount suitable for the light amount of the light emitting diode module 200 preset by the user according to a previously inputted calculation formula, and controls the constant current circuit unit 300 based on the calculated current amount.

In this embodiment, the control unit 400 controls the constant current circuit unit 300 based on the amount of current calculated according to a look-up table input in advance. That is, the control unit 400 previously calculates a current amount suitable for the light amount of the light emitting diode module 200 preset by the user according to the lookup table, and controls the constant current circuit unit 300 based on the calculated current amount.

The communication unit 500 receives the first set value of the preset light quantity of the light emitting diode module 200 as a wired or wireless serial data signal, converts it into a first signal, and transmits the first signal to the controller 400. The controller 400 receives the first signal and controls the power supply unit 100 or controls the constant current circuit unit 300. The first set value is a preset amount of light by the user.

The input unit 600 receives a second set value of a predetermined light amount of the light emitting diode module 200, converts the second set value into a second signal, and transmits the second signal to the control unit 400. The controller 400 receives the second signal and controls the power supply unit 100 or controls the constant current circuit unit 300 according to the second set value.

The display unit 700 displays a preset light amount of the light emitting diode module 200 based on the first set value received from the communication unit 500. [ Also, the preset light amount of the light emitting diode module 200 is displayed based on the second set value received from the input unit 600. [ By displaying the amount of light on the display unit 700, it is possible to easily grasp the amount of light preset by the user.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not for purposes of limiting the technical idea of the present invention, but are intended to be illustrative, and thus the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. .

100: Power supply
200: Light emitting diode module
300: Constant current circuit
400:
500:
600:
700:

Claims (6)

A light emitting diode module (200) connected to a power supply unit (100) for outputting power and having at least one light emitting diode device;
A constant current circuit unit 300 connected to the light emitting diode module 200 and controlling an amount of current applied to the light emitting diode module 200; And
And a control unit (400) for controlling the power supply unit (100) and the constant current circuit unit (300) so that the light emitting diode device is turned on based on a preset light amount of the light emitting diode module (200)
The constant current circuit part (300)
A switching device 310 for controlling an amount of current applied to the light emitting diode module 200;
A series resistor 320 connected to the switching device 310;
A comparator in which an offset voltage exists between an inverting input terminal 331 to which the first output signal of the first voltage V is inputted and a non-inverting input terminal 332 to which the second output signal of the controller 400 is inputted 330);
And a voltage converter 340 for applying a voltage equal to or higher than the offset voltage to the output voltage V2 of the series resistor 320 to convert the voltage into the first voltage V,
The comparator 330 compares the first output signal with the second output signal to control the turn-on and turn-off of the switching device 310,
The controller 400 measures a voltage V1 between the light emitting diode module 200 and the switching device 310 to adjust a voltage of the output power of the power supply 100, And controls the constant current circuit unit (300) so that a constant current corresponding to the predetermined light amount is conducted. The method according to claim 1,
The control unit (400) controls the constant current circuit unit (300) based on a current amount calculated according to a previously inputted calculation formula. The method according to claim 1,
The controller (400) controls the constant current circuit unit (300) based on a current amount calculated according to a look-up table input in advance. delete The method according to claim 1,
A communication unit 500 for receiving a first set value of a preset light quantity of the light emitting diode module 200 by a wired or wireless serial data signal and converting the first set value into a first signal and transmitting the first signal to the control unit 400; And
And a display unit (700) for displaying a preset light amount of the light emitting diode module (200) based on the first set value received from the communication unit (500). The method according to claim 1,
An input unit 600 for receiving a second set value of a preset light amount of the LED module 200, converting the second set value into a second signal, and transmitting the second signal to the control unit 400; And
And a display unit (700) for displaying a preset light amount of the light emitting diode module (200) based on the second set value received from the input unit (600).

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