KR101520164B1 - Lighting device - Google Patents

Abstract

It is an object of the present invention to provide an LED lighting device driving system that provides stable driving voltage and driving current to an LED lighting device through feedback. A LED lighting device driving system according to the present invention includes an LED lighting device including a plurality of LEDs and emitting light in response to a driving voltage, a DC-DC converter providing the driving voltage to the LED lighting device, And a constant current circuit for receiving a feedback voltage, comparing the feedback voltage with a reference voltage, and outputting a comparison result to the DC-DC converter, wherein the DC-DC converter senses an operating voltage of the LED lighting device, And varies the driving voltage in response to the sensed operating voltage and the comparison result. The LED lighting device driving system according to the present invention can provide stable driving voltage and driving current to the LED lighting device through feedback.

Description

LIGHTING DEVICE [0001]

The present invention relates to an LED lighting device driving system. More particularly, the present invention relates to an LED lighting device driving system including an LED lighting device and an LED lighting device driving circuit connected thereto for controlling the illuminance of the LED lighting device.

In light-related fields, LED (Light Emitting Diode) is preferred not only because it is excellent in energy saving and environment-friendly, but also can display colorful and various colors. The LED includes a photoelectric conversion type semiconductor device, and converts the electrical signal into light having a wavelength band of a desired region using the characteristics of the compound semiconductor to perform a role of illumination. LEDs can have a variety of colors unlike traditional white-light lighting, and full-color lighting can be achieved using LEDs in three colors: R, G, and B (Red, Green, and Blue).

In particular, since the optical characteristics of the LED included in the LED lighting device are determined by the current passing through the LED, the LED It is required to provide a stable driving voltage and current for effective control of the lighting apparatus.

It is an object of the present invention to provide an LED lighting device driving system that provides stable driving voltage and driving current to an LED lighting device through feedback.

A LED lighting device driving system according to the present invention includes an LED lighting device including a plurality of LEDs and emitting light in response to a driving voltage, a DC-DC converter providing the driving voltage to the LED lighting device, And a constant current circuit for receiving a feedback voltage, comparing the feedback voltage with a reference voltage, and outputting a comparison result to the DC-DC converter, wherein the DC-DC converter senses an operating voltage of the LED lighting device, And varies the driving voltage in response to the sensed operating voltage and the comparison result.

In an embodiment, the DC-DC converter is turned on and off in response to a control signal provided from the outside.

In an embodiment, the control signal is a multi-bit digital signal, and the DC-DC converter is stepped on and off in response to the control signal.

In an embodiment, the DC-DC converter boosts a power supply voltage input from the outside to provide the driving voltage.

In an embodiment, the constant current circuit includes a comparator for comparing the feedback voltage to the reference voltage, and the comparator is configured as an OP-Amp.

In the embodiment, the constant current circuit has a feedback terminal, a positive input terminal, a negative input terminal, and an output terminal for receiving the feedback voltage from the DC-DC converter, and the voltage comparison between the positive input terminal and the negative input terminal A feedback resistor coupled between the output terminal of the comparator and the feedback terminal; a first resistor coupled between the feedback terminal and the positive input terminal of the comparator; And a second resistor connected between the negative input terminal of the comparator and a reference voltage terminal to which the reference voltage is provided.

In an embodiment, the reference voltage terminal is provided with a ground voltage.

The LED lighting device driving system according to the present invention can provide stable driving voltage and driving current to the LED lighting device through feedback.

1 is a block diagram showing a lighting device driving system according to an embodiment of the present invention.
2 is a block diagram illustrating the connection relationship of the illuminator drive system of FIG. 1 in greater detail.
3 is a circuit diagram showing an embodiment of the constant current circuit of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. It is also to be understood that the terminology used herein is for the purpose of describing the present invention only and is not used to limit the scope of the present invention. It is to be understood that both the foregoing general description and the following detailed description are exemplary, and are intended to provide further explanation of the claimed invention.

1 is a block diagram showing a lighting device driving system according to an embodiment of the present invention. Referring to FIG. 1, the lighting system driving system 100 includes a DC-DC converter 110, an LED lighting device 120, and a constant current circuit 130.

The lighting device driving system 100 according to the present invention senses the operating voltage of the LED lighting device 120 and provides the LED lighting device 120 with the sensed operating voltage and the feedback loop of the constant current circuit 130 Adjust the driving voltage. The illuminating device driving system 100 provides a stable driving voltage and a driving current to the LED lighting device 120 through the above-described operation so as to operate with a stable illuminance.

The DC-DC converter 110 converts a power supply voltage supplied from the outside into a driving voltage and outputs the driving voltage. The driving voltage is a DC voltage required for the operation of the LED lighting apparatus 120. The DC-DC converter 110 can vary the driving voltage output using the operating voltage fed back from the LED lighting device 120. [ The DC-DC converter 110 may be connected to the constant current circuit 130 to stabilize the driving voltage using the output voltage from the constant current circuit 130.

 The kind of the DC-DC converter 110 used in the present invention is not limited. For example, the DC-DC converter 110 may be one of a DC-DC converter such as a Buck, Boost, or a Buck-Boost.

The LED lighting device 120 is a lighting device including at least one LED. The LED lighting apparatus 120 may be implemented in a form in which a plurality of LEDs are connected in series. The type of the LED illumination device 120 used in the present invention is not limited. For example, the LED lighting device 120 may be a backlight source of an LCD panel.

The LED lighting apparatus 120 emits light in response to a driving voltage supplied from the DC-DC converter 110. [ The light emission intensity of the LED lighting apparatus 120 is determined by the driving voltage and the driving current provided from the DC-DC converter 110. [

The constant current circuit 130 includes a feedback loop. The feedback loop is for providing a stable driving voltage and driving current to the LED illumination device 120. [ The constant current circuit 130 is connected to the DC-DC converter 110 to provide an output voltage to the DC-DC converter 110. [ As described above, the drive voltage, which is the output voltage of the DC-DC converter 110, is stabilized by using the output voltage provided from the constant current circuit 130. [

The illumination device driving system 100 described above senses the operating voltage of the LED lighting device 120 and uses the sensed operating voltage and the feedback loop of the constant current circuit 130 to adjust the driving voltage . As in the above-described operation, the lighting apparatus driving system 100 provides a stable driving voltage and driving current to the LED lighting apparatus 120 to operate with a stable illumination. This will be described in more detail with reference to FIG.

2 is a block diagram illustrating the connection relationship of the illuminator drive system of FIG. 1 in greater detail.

The DC-DC converter 110 is supplied with a power supply voltage Vss and a control signal CTRL from the outside. The power supply voltage Vss is an input voltage supplied to the DC-DC converter. The DC-DC converter 110 may boost the power supply voltage Vss and provide the boosted voltage to the LED lighting apparatus 120 as the driving voltage Vout.

The control signal CTRL is a signal indicating whether or not the DC-DC converter 110 is activated. The DC-DC converter 110 may be turned on or off in response to the control signal CTRL. The control signal CTRL may be an N-bit digital signal. For example, the control signal CTRL may be an 8-bit digital signal. When the control signal CTRL is a multi-bit signal, the DC-DC converter 110 may be turned on or off stepwise in response to the control signal CTRL.

The DC-DC converter 110 provides the driving voltage Vout to the LED lighting device 120. [ The LED lighting apparatus 120 emits light in response to the driving voltage Vout provided from the DC-DC converter 110. [

Meanwhile, the DC-DC converter 110 senses the positive sensing voltage Vsc + and the negative sensing voltage Vsc- from the LED lighting device 120. The positive sensing voltage Vsc + and the negative sensing voltage Vsc- are the operating voltages of the LED illumination device 120. [ The negative sensing voltage Vsc- may be the ground voltage. At this time, the corresponding positive sensing voltage Vsc + may be the driving terminal voltage of the LED illumination device 120. [

The DC-DC converter 110 can vary the driving voltage Vout based on the comparison result of the positive sensing voltage Vsc + and the negative sensing voltage Vsc- with the reference voltage. The DC-DC converter 110 varies the driving voltage Vout based on the voltage sensed from the LED lighting device 120, and thus can supply a constant driving current to the LED lighting device 120.

The DC-DC converter 110 is also connected to the constant current circuit 130 to provide the feedback voltage Vfd. The DC-DC converter 110 can maintain the driving voltage Vout constant by using the constant current circuit 130. [

The illuminator drive system 100 described above senses the operating voltage or operating current from the LED illuminator 120 and provides the sensed voltage and current to the LED illuminator 120 using the feedback loop of the constant current circuit 130 Adjust the driving voltage. As in the above-described operation, the lighting apparatus driving system 100 provides a stable driving voltage and driving current to the LED lighting apparatus 120 to operate with a stable illumination.

3 is a circuit diagram showing an embodiment of the constant current circuit of FIG. 3, the constant current circuit 130 includes a comparator 131, a feedback resistor Rf, a first resistor R1 and a second resistor R2. The feedback resistor Rf is connected between the output terminal of the comparator 131 and the feedback terminal. The first resistor R1 is connected between the feedback terminal and the positive input terminal of the comparator 131. [ The second resistor (R2) is connected between the ground terminal and the negative input terminal of the comparator (131).

The constant current circuit 130 is a comparator having a positive feedback loop. The constant current circuit 130 is connected to a DC-DC converter (see FIG. 1) 110 via a feedback terminal. The constant current circuit 130 may compare the feedback voltage Vfd provided from the feedback terminal with the reference voltage and provide the result to the DC-DC converter 110. [ In this embodiment, the reference voltage may be the ground voltage.

The above-described constant current circuit 130 may feedback the result of the comparison between the feedback voltage and the reference voltage to the DC-DC converter 110 to stabilize the output voltage of the DC-DC converter 110. 1) 100 using the DC-DC converter 110 and the constant current circuit 130 described above can provide a stable driving voltage and a driving current to the LED lighting apparatus 120 (see FIG. 1) So that it operates with illumination.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. For example, the detailed configuration of the DC-DC converter, LED lighting device, and constant current circuit may be variously changed or changed depending on the usage environment or usage. The specific terminology used herein is for the purpose of describing the present invention and is not used to limit its meaning or to limit the scope of the present invention described in the claims. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be applied not only to the following claims, but also to the equivalents of the claims of the present invention.

100: LED lighting device driving system
110: DC-DC converter
120: LED lighting device
130: Constant current circuit
131: comparator

Claims (7)

An LED lighting device driving system,
The LED lighting device driving system includes:
An LED lighting device including a plurality of LEDs and emitting light in response to a driving voltage;
A DC-DC converter for providing the driving voltage to the LED lighting device; And
And a constant current circuit that receives a feedback voltage from the DC-DC converter, compares the feedback voltage with a reference voltage, and outputs a comparison result to the DC-DC converter,
Wherein the DC-DC converter senses an operating voltage of the LED lighting device, varies the driving voltage in response to the sensed operating voltage and the result of the comparison,
Wherein the constant-
A feedback terminal for receiving the feedback voltage from the DC-DC converter;
A comparator having a positive input terminal, a negative input terminal, and an output terminal, wherein the output of the output terminal is varied in response to a voltage comparison result between the positive input terminal and the negative input terminal;
A feedback resistor coupled between the output terminal and the feedback terminal of the comparator;
A first resistor coupled between the positive input terminal and the feedback terminal of the comparator; And
And a second resistor connected between the negative input terminal of the comparator and a reference voltage terminal to which the reference voltage is provided. The method according to claim 1,
Wherein the DC-DC converter is turned on and off in response to an externally provided control signal. 3. The method of claim 2,
Wherein the control signal is a multi-bit digital signal and the DC-DC converter is stepped on and off in response to the control signal. The method according to claim 1,
Wherein the DC-DC converter boosts a power supply voltage input from the outside to provide the driving voltage. The method according to claim 1,
Wherein the comparator is an OP-Amp.
delete The method according to claim 1,
And the reference voltage terminal is provided with a ground voltage.

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