KR101490863B1 - Led lamp using inner condenser - Google Patents

Abstract

Disclosed is an LED lamp using an inner condenser, which minimizes the output deviation by opening a resonant condenser of a stabilizer and connecting a resonant inductor of the stabilizer to the inner condenser. The LED lamp using the inner condenser comprises: a first input base having a first terminal and a second terminal, one ends of which are connected to the stabilizer; a resonant switching unit which opens the first terminal or the second terminal connected to the resonant condenser of the stabilizer; an LED illumination unit including at least one LED and having an input terminal connected to the resonant switching unit; a second input base having one end connected to an output terminal of the LED illumination unit and the other terminal connected to the stabilizer; and an inner condenser having one end connected to an input terminal of the LED illumination unit and the other end connected to the output terminal of the LED illumination unit.

Description

LED LAMP USING INNER CONDENSER USING INTERNAL CAPACITOR [0002]

The present invention relates to an LED lamp using an internal capacitor, and more particularly, to an LED lamp using an internal capacitor connected to a ballast.

Generally, in homes, buildings, factories, etc., fluorescent lamps which are economical and have high illuminance are mainly used as illumination. A fluorescent lamp is a lighting device that generates electric discharge by a high voltage in the inside, and the ultraviolet ray generated thereby reacts with the fluorescent material applied on the inner surface of the lamp to emit visible light. At this time, the lighting method of the fluorescent lamp is turned on using a magnetic lighting system using a ballast, a starter (Glow Starter or Rapid Starter) and a magnetic ballast, and an electronic lighting system using an electronic ballast.

Fluorescent lamps are used in various types of lighting for illumination and interior for producing and displaying products or exhibits beautifully and beautifully at shopping malls, exhibition halls, etc. However, there is a problem that brightness can not be achieved to a desired level in view of power consumption.

In recent years, in order to solve such a conventional problem, the use of an LED lamp capable of driving at a low voltage and having a long lifetime, low power consumption, a fast response speed and a strong impact resistance, have.

The LED lamp is similar to a fluorescent lamp and is connected to the fluorescent lamp's luminaire. In this case, the ballast installed in the luminaire controls the output by controlling the resonance point between the resonant inductor and the resonant capacitor.

The stable operation of the LED lamp can be maintained as the output deviation of the ballast becomes smaller. However, since the ballast installed in the luminaire is manufactured in accordance with a fluorescent lamp that operates stably even when the output deviation is higher than that of the LED lamp, when the LED lamp is connected to the existing ballast, the LED lamp is broken due to the output deviation of the ballast There is a problem.

Prior Art: Korean Patent No. 10-1305070 (name: LED light that can be connected to a fluorescent lamp socket)

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to provide an LED lamp using an internal capacitor which opens the resonance capacitor of the ballast, connects the resonance inductor and internal capacitor of the ballast, The purpose.

According to an aspect of the present invention, there is provided an LED lamp using an internal capacitor, comprising: a first input base having a first terminal and a second terminal, one end of which is connected to the ballast; A resonance switching unit for opening a terminal connected to the resonance capacitor of the ballast among the first terminal and the second terminal; An LED lighting unit including at least one LED and having an input connected to the resonance switching unit; A second input base which is connected to the output end of the LED illumination part, and the other end is connected to the ballast; And an internal capacitor connected to the input terminal of the one-end illumination portion and the other end connected to the output terminal of the LED illumination portion.

The resonance switching unit includes: a third terminal having one end connected to the other end of the first terminal; A fourth terminal connected to the other end of the second terminal; And a fifth terminal whose one end is connected to one of the other terminal of the third terminal and the other terminal of the fourth terminal and whose other terminal is connected to the input terminal of the LED illumination part, The terminal connected to the resonant capacitor can be opened.

In this case, the resonance switching unit may further include a first connecting line connecting one of the third terminal and the fourth terminal to the fifth terminal.

A first rectifying circuit having an input terminal connected to the fifth terminal of the resonant switching unit and the internal capacitor; An LED circuit including at least one LED, the LED circuit being connected to an output terminal of the first rectifying circuit; And a second rectifier circuit having an input terminal connected to the LED circuit and an output terminal connected to the second input base and the internal capacitor.

Meanwhile, a switching control unit connected to the first terminal and the second terminal of the first input base to detect a terminal connected to the resonance capacitor of the ballast among the first terminal and the second terminal, and to control the resonance switching unit to open the detected terminal .

According to the present invention, in the LED lamp using the internal capacitor, the resonance switching unit is disposed between the first input base and the first rectifying circuit, and the internal capacitor is connected to the first rectifying circuit and the second rectifying circuit, There is an effect that the optical output deviation can be minimized.

Further, in the LED lamp using the internal capacitor, the resonance switching unit is disposed between the first input base and the first rectifying circuit, and the internal capacitor is connected to the first rectifying circuit and the second rectifying circuit. So that the manufacturing cost can be reduced.

In addition, the LED lamp using the internal capacitor has an effect of providing a highly stable LED lamp by minimizing the optical output deviation by disposing the resonance switching unit and the internal capacitor. That is, the LED lamp has an effect that the resonance rate can be stably maintained at about 50% in all types and types of ballasts.

1 to 3 are diagrams for explaining an LED lamp using an internal capacitor according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. . In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, an LED lamp using an internal capacitor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 to 3 are views for explaining an LED lamp using an internal capacitor according to an embodiment of the present invention.

As shown in FIG. 1, an LED lamp 100 using an internal capacitor is an illuminating device installed in a lamp 200 provided with a ballast to illuminate a predetermined area.

In the ballast, resonant inductors and resonant capacitors are built in to match the resonant points. The ballast matches the resonance point of the resonance inductor with the resonance point of the resonance capacitor to control the output to stably operate the LED lamp 100.

However, when resonant point matching between the resonant inductor and the resonant capacitor of the ballast is performed, the output change due to the capacitance change of the resonant capacitor occurs severely. If the output change is severe, the output deviation increases and the LED lamp 100 fails to operate stably and is damaged.

Accordingly, the LED lamp 100 using the internal capacitor opens the connection to the resonance capacitor of the ballast through the resonance switching unit, and controls the output through the resonance point matching between the resonance inductor and the internal capacitor of the ballast. Accordingly, the LED lamp 100 using the internal capacitor operates stably by minimizing the output deviation.

2, the LED lamp 100 using the internal capacitor includes a first input base 110, a resonant switching unit 120, a first rectifier circuit 130, an LED circuit 140, A second rectifier circuit 150, a second input base 160, and an internal capacitor 170.

The first input base 110 includes a first terminal 112 and a second terminal 114. At this time, the first terminal 112 and the second terminal 114 are connected to the stabilizer at one side and the resonance switching unit 120 at the other side.

The resonance switching unit 120 includes a third terminal 122, a fourth terminal 124, and a fifth terminal 126. That is, the resonance switching unit 120 includes a third terminal 122 and a fourth terminal 124 constituted by input terminals, and a fifth terminal 126 composed of an output terminal. One end of the third terminal 122 is connected to the first terminal 112 of the first input base 110 and the third terminal 124 is connected to the second terminal 114 of the first input base 110. [ And the fifth terminal 126 is connected to one of the third terminal 122 and the fourth terminal 124 and the other terminal thereof is connected to the first rectifier circuit 130. In this case, the fifth terminal 126 is connected to the terminal not connected to the resonance capacitor of the ballast (i.e., the first terminal 112 and the second terminal 114) among the third terminal 122 and the fourth terminal 124 To open the terminals (i.e., the other one of the first terminal 112 and the second terminal 114) connected to the resonance capacitor of the ballast. The fifth terminal 126 switches the third terminal 122 and the fourth terminal 124 via the first connection line 128. Here, the fifth terminal 126 may be constituted by one switching element (circuit).

The LED lamp 100 using the internal capacitor is connected to the first terminal 112 and the second terminal 114 of the first input base 110 and is connected to the first terminal 112 and the second terminal 114 (Not shown) for detecting the terminal connected to the resonance capacitor of the ballast and controlling the resonance switching unit 120 to open the detected terminal.

The first rectifier circuit 130 is constituted by a full bridge circuit or a half bridge circuit including a plurality of connecting portions (i.e., the first connecting portion 132 to the fourth connecting portion 138) and a plurality of diodes. The first connection part 132 and the second connection part 134 are disposed at the input end of the first rectifier circuit 130. The first connection part 132 is connected to the fifth terminal 126 of the resonance switching part 120, And the second connection part 134 is connected to one end of the first connection part 132 internal capacitor 170. The second connection part 134 is connected to the second connection part 134, The third rectifying circuit 130 has a third connecting part 136 and a fourth connecting part 138 disposed at an output terminal thereof and the third connecting part 136 and the fourth connecting part 138 are connected to the LED circuit 140.

The LED circuit 140 is constructed by connecting one or more LEDs including an LED drive in series. The LED circuit 140 may include one or more zener diodes for protecting the serially connected LEDs. At this time, the zener diode is connected in parallel with the LED.

The LED circuit 140 includes an anode side terminal 142 and a cathode side terminal 144. At this time, the anode side terminal 142 is connected to the third connection part 136 of the first rectifier circuit 130 and the fifth connection part 151 of the second rectifier circuit 150. The cathode side terminal 144 is connected to the fourth connecting portion 138 of the first rectifying circuit 130 and the sixth connecting portion 153 of the second rectifying circuit 150.

The second rectifier circuit 150 is constituted by a full bridge circuit or a half bridge circuit including a plurality of connecting portions (i.e., the fifth connecting portion 151 to the eighth connecting portion 157) and a plurality of diodes. At this time,

The fifth rectifying circuit 150 has a fifth connecting portion 151 and a sixth connecting portion 153 disposed at the input end thereof and the fifth connecting portion 151 is connected to the anode side terminal 142 of the LED circuit 140 and the first rectifying circuit 150. [ And the sixth connection portion 153 is connected to the cathode side terminal 144 of the LED circuit 140 and the fourth connection portion 138 of the first rectifier circuit 130 and the third connection portion 136 of the first rectifier circuit 130, . The seventh connecting part 155 and the eighth connecting part 157 are disposed at the output end of the second rectifier circuit 150 and the seventh connecting part 155 is connected to the sixth terminal 162 of the second input base 160 And the eighth connection part 157 is connected to the seventh terminal 164 of the second input base 160 and the other end of the internal capacitor 170. At this time, the seventh connecting portion 155 and the eighth connecting portion 157 are connected to each other through the second connecting line 159 and shorted.

The second input base 160 includes a sixth terminal 162 and a seventh terminal 164. At this time, one end of the sixth terminal 162 is connected to the seventh connecting portion 155 of the second rectifying circuit 150, and the other end is connected to the ballast. One end of the eighth terminal is connected to the eighth connecting portion 157 of the second rectifying circuit 150, and the other end is connected to the ballast.

One end of the internal capacitor 170 is connected to the first rectifying circuit 130 and the other end is connected to the second rectifying circuit 150. That is, one end of the internal capacitor 170 is connected to the second connection portion 134 of the first rectifier circuit 130, and the other end thereof is connected to the eighth connection portion 157 of the second rectifier circuit 150. The internal capacitor 170 regulates the output deviation by controlling the resonance point of the stabilizer with the resonance inductor.

Accordingly, the LED lamp 100 using the ballast and the internal capacitor is constructed as shown in FIG. The LED lamp 100 includes a resonance switching unit 120 disposed between the first input base 110 and the first rectifier circuit 130 and a second rectifier circuit 130 connected to the first rectifier circuit 130 and the second rectifier circuit 150, The resonance capacitor C 1 of the stabilizer is opened by connecting the capacitor 170 to control the resonance point of the resonance inductor L 1 and the internal capacitor 170. Accordingly, the LED lamp 100 using the internal capacitor has a high stability characteristic by minimizing the optical output variation irrespective of the type and the type of the stabilizer connected to the LED lamp 100.

As described above, in the LED lamp using the internal capacitor, the resonance switching unit is disposed between the first input base and the first rectifying circuit, and the internal capacitor is connected to the first rectifying circuit and the second rectifying circuit, There is an effect that the optical output deviation can be minimized.

Further, in the LED lamp using the internal capacitor, the resonance switching unit is disposed between the first input base and the first rectifying circuit, and the internal capacitor is connected to the first rectifying circuit and the second rectifying circuit. So that the manufacturing cost can be reduced.

In addition, the LED lamp using the internal capacitor has an effect of providing a highly stable LED lamp by minimizing the optical output deviation by disposing the resonance switching unit and the internal capacitor. That is, the LED lamp has an effect that the resonance rate can be stably maintained at about 50% in all types and types of ballasts.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

100: LED lamp 110: first input base
112: first terminal 114: second terminal
120: resonance switching unit 122: third terminal
124: fourth terminal 126: fifth terminal
128: first connection line 130: first rectifier circuit
132: first connection part 134: second connection part
136: third connection part 138: fourth connection part
140: LED circuit 142: terminal on the anode side
144: cathode side terminal 150: second rectifying circuit
151: fifth connection part 153: sixth connection part
155: seventh connecting portion 157: eighth connecting portion
159: second connecting line 160: second input base
162: sixth terminal 164: seventh terminal
170: internal capacitor 200: luminaire

Claims (5)

A first input base having a first terminal and a second terminal which are connected to the ballast at one end;
A resonance switching unit for opening a terminal of the first terminal and the second terminal connected to the resonance capacitor of the ballast;
An LED lighting unit including at least one LED and having an input connected to the resonance switching unit;
A second input base having one end connected to the output terminal of the LED illumination part and the other end connected to the ballast; And
And an internal capacitor connected to an input terminal of the LED illumination part and having an opposite end connected to an output terminal of the LED illumination part. The method according to claim 1,
The resonant switching unit includes:
A third terminal having one end connected to the other end of the first terminal;
A fourth terminal having one end connected to the other end of the second terminal; And
And a fifth terminal connected at one end to the other end of the third terminal and the other end of the fourth terminal and at the other end to the input terminal of the LED illumination part,
And the fifth terminal opens a terminal connected to the resonance capacitor of the ballast among the third terminal and the fourth terminal. 3. The method of claim 2,
The resonant switching unit includes:
Further comprising a first connection line connecting one of the third terminal and the fourth terminal to the fifth terminal. 3. The method of claim 2,
The LED illumination unit,
A first rectifying circuit having an input terminal connected to a fifth terminal of the resonant switching unit and the internal capacitor;
An LED circuit including at least one LED, the LED circuit being connected to an output terminal of the first rectifying circuit;
And a second rectifying circuit having an input terminal connected to the LED circuit and an output terminal connected to the second input base and the internal capacitor. The method according to claim 1,
A resonance capacitor connected to the first terminal and the second terminal of the first input base to detect a terminal connected to the resonance capacitor of the ballast among the first terminal and the second terminal and to control the resonance switching unit to open the detected terminal And a switching control unit for controlling the operation of the internal capacitor.

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