KR101761503B1 - LED Protection Circuits for Long-life LED Light Apparatus - Google Patents

Abstract

The present invention relates to an LED device protection circuit capable of prolonging the life of an LED lighting device, and a pair of LED serial modules in which one or more high-brightness LED chip elements are arranged in a serial manner are connected in parallel again to switch DPDT switches One or more supply current branch circuits each having a resistance element for normally operating the entire LED chip array module with a constant current bypass when the specific LED chip element is short-circuited due to deterioration, A DPDT switch for operating another LED lighting module incorporated in parallel when the lifetime of the pair of LED lighting modules is exhausted, a resistor for limiting the total current supplied to the pair of LED lighting modules, And a half-wave rectifier diode disposed at a front end of the DPDT switch for preventing a current from flowing to the LED chip device due to an error in the DC power supply connection, the LED device protection circuit comprising: The lifetime can be doubled without replacing the relatively expensive LED lighting device as compared to the high-brightness LED chip device, and it can be easily applied by the existing LED lighting device manufacturer and the product differentiation of the LED lighting device There is a unique effect of securing market competitiveness.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an LED protection circuit,

The present invention relates to an LED lighting device, and more particularly, to a LED lighting device in which a certain LED chip element is turned on by a constant current bypass (bypass) To an LED device protection circuit capable of extending the life of the lighting device.

In recent years, light emitting diodes (LEDs) have been attracting attention as high-brightness lights because they are eco-friendly, low in consumption, and excellent in electrical efficiency. Compared to incandescent lamps and fluorescent lamps, which are conventional light sources, they are lit at very low voltage and small current. In addition, since the current flows only in one direction, there is a characteristic that it can flicker at high speed. In order to light the LED chip element, it is important to grasp the inherent characteristics of the LED chip element and realize the lighting circuit and the lighting control that are well utilized.

A typical method of an LED aggregation circuit that modularizes one or more LED chip elements to simultaneously light up is a serial method, a parallel method, and a serial-parallel method.

First, the serial method is effective when the power supply voltage E needs to be increased. However, when the LED chip device fails in the short mode, the voltage applied to the resistor rises and the net current rises. Therefore, care must be taken not to exceed the rated current. Further, when the LED chip device fails in the open mode, there is a risk that not all the LED chip devices are turned on.

Next, the parallel method is effective when it is desired to light a plurality of LED chip elements at a low voltage. However, in the case where the deviation of the forward voltage of the LED chip element is large, the current deviates to the LED chip element of the low forward voltage, so that the brightness deviates remarkably. In addition, when the LED chip device fails in the short mode, there is a risk that all the LED chip devices are not turned on.

The series-parallel method is a combination of a serial method and a parallel method to reduce the risk of LED failure. It is possible to maintain lighting of the front-end LED chip element even when the LED chip element fails in a short mode. When the LED chip element is broken in the open mode, lighting of other LED chip elements can be maintained. However, since the net current of each LED chip element changes, the overall brightness becomes dark.

Since the LED lighting device is realized by modularization of the LED chip array device, if the voltage applied to the resistor in the short-circuit mode rises and the rated current is exceeded due to the rise of the net current, or the deviation of the forward voltage of the LED chip device is large, The brightness is shifted due to the low LED chip element, which affects the overall brightness of the lighting apparatus. In the open mode, there is a high possibility that not all the LED chip elements are lit up (refer to FIG.

Meanwhile, according to Korean Patent Application No. 10-2014-0147310 (May 31, 2014), an equal lifetime parallel switching LED control method and apparatus and an LED lighting apparatus using the same, a plurality of LED modules are connected and a switch is connected to the LED module in parallel A technique for maximizing the lifetime of the entire LED illumination device by controlling each of the LED switches is proposed (refer to FIG. 1 (B)).

However, in the above-mentioned patent, a switch connected in parallel to a plurality of LED modules is composed of an expensive semiconductor switch element. In addition to using expensive switching elements such as bipolar transistors, metal-oxide semiconductor field-effect transistors (MOSFETs) and insulated-gate bipolar transistors (IGBTs), they have a very complicated switching control algorithm.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an integrated circuit (LED) integrated circuit in a serial-parallel manner, When a certain LED chip element is short-circuited due to deterioration and connected to a resistor R ₂ of a relatively larger device, a branch circuit of the supply current is provided so that the flow of the constant current By constructing a protection circuit that allows the LED lighting device to operate normally by flowing a constant current set to other normal LED chip devices by natural bypass, it is possible to increase the lifetime twice without replacing the LED lighting device And it is an object of the present invention to provide an LED device protection circuit that can extend the service life of the lighting device.

According to an aspect of the present invention, there is provided a light emitting diode (LED) module including: a pair of LED serial modules (100) in which one or more high-brightness LED (Light Emitting Diode) chip array elements constitute a series circuit; And a pair of LED lighting modules (200) constituting a parallel circuit so that the pair of LED serial modules can be branched by switching the DPDT switches; In addition, when a resistor R ₂ is connected in parallel to each of the LED chip array elements of the pair of LED serial modules and a specific element of the LED chip array elements is short-circuited due to deterioration, At least one supply current branch circuit (300) having a constant current bypass function for normally operating the entire chip array module; And a DPDT (Double Pole Double Throw) switch 400 for operating another LED lighting module built in parallel when the lifetime of the particular LED module is terminated due to an abnormal failure during operation of the particular LED module The LED device protection circuit according to claim 1,

According to another embodiment of the present invention, the at least one supply current branch circuit 300 is a resistor (R ₂ ) element, the resistance value of R ₂ is 150 [?] The operation current (20 mA) during normal operation of the device flows through the LED chip array device, and when the LED chip array device is opened, the at least one supply current branch circuit having a bypass function And flows to the resistor R _{2 so} that the entire module of the LED chip array element can operate normally.

According to another embodiment of the present invention, the DPDT (Double Pole Double Throw) switch 400 switches the switches so that the LED lighting modules 200a and 200b, which are in normal operation among the pair of LED lighting modules 200a and 200b, The life time of the LED lighting device can be doubled by operating other LED lighting modules 200b built in parallel.

According to another embodiment of the present invention, the value of the resistor R ₁ (500) for limiting the total current supplied to the pair of LED lighting modules (200)

이고,

ego,

는 한 쌍의 LED 조명모듈에 인가되는 전압,

은 LED 어레이 총 전압강하,

(0.6~0.7V)는 순방향전압이 LED 칩 배열 소자에 걸렸을 때 전류가 급격하게 증가하는 문턱전압 및 I_S는 요구되는 LED 어레이 총 공급전류이며, 상기 저항 R₁은 상기 DPDT 스위치(400) 전단에 설치되어 LED 어레이 총 공급전류와 LED 어레이의 동작 시 LED 어레이 총 전압강하와 문턱전압을 고려하여 결정되는 것을 특징으로 한다.Here,

A voltage applied to the pair of LED lighting modules,

LED array total voltage drop,

(0.6 ~ 0.7V) is the current threshold voltage, which abruptly increases, and I _S is the total supply current required when the LED array taken in the LED chip array element the forward voltage, the resistance R ₁ is And is determined in consideration of the total voltage drop of the LED array and the threshold voltage in the operation of the LED array and the total supply current of the LED array, which are provided before the DPDT switch 400.

According to another embodiment of the present invention, when the DC power supplied to the LED device protection circuit that can extend the lifetime of the LED lighting device is reversely connected, a half-wave rectifier diode D) is installed.

The LED device protection circuit capable of extending the lifetime of the LED lighting device of the present invention is configured such that the LED chip device remaining as a constant current bypass when a certain LED chip device of the LED module is turned off (open)

(1) Since the modularized LED lighting device is relatively expensive compared to the high-brightness LED chip device, the lifetime of the LED lighting device is very important, so that the LED lighting device having a constant current bypass function The lifetime (use time) can be doubled even with a resistive element alone.

(2) In contrast to the prior art, in which an expensive switching element such as a bipolar transistor, a MOSFET, or an IGBT is used to extend the lifetime of the LED lighting apparatus, Only a resistor for providing a branching circuit of a supply current can be connected to the device. Therefore, manufacturing cost and maintenance cost (replacement cost) due to installation of a LED light for a building such as a street light, a park, etc. using the LED lighting device can be greatly reduced.

(3) The present invention is a technology that can be easily applied to a conventional LED lighting device manufacturer, and has a unique effect of obtaining product differentiation and market competitiveness of an LED lighting device with a small additional cost.

Figure 1 is a schematic circuit diagram for extending the life of an LED lighting module for the prior art;
2 is a circuit diagram schematically showing an LED serial module and the like for an LED device protection circuit that can extend the life of the LED lighting device according to the preferred embodiment of the present invention.
FIG. 3 is a circuit diagram showing an overall technical configuration of an LED device protection circuit that can extend the lifetime of the LED lighting device according to the preferred embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an LED device protection circuit according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, in adding reference numerals to the constituent elements of the drawings, it is to be noted that the same constituent elements are denoted by the same reference symbols as possible even if they are displayed on different drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

2 to 4, a core technical solution of an LED device protection circuit which can extend the service life of the LED lighting device according to the embodiment of the present invention includes a pair of LED series module 100, The LED lighting module 200, the at least one supply current branch circuit 300, the double pole double throw (DPDT) switch 400, the resistor R ₁ 500 for limiting the total current and the half-wave rectifier diode D 600 .

Referring to FIGS. 2 and 3, a pair of LED serial modules 100 are LED array means for implementing an LED illumination device, in which one or more high-brightness LED (Light Emitting Diode) chip elements are arranged in series Thereby constituting one circuit.

Referring to FIGS. 2 and 3, the pair of LED lighting modules 200 are means for arranging the pair of LED series modules 100 in parallel for implementing an LED lighting device, A parallel circuit is configured so that the serial module 100 can be branched by switching the DPDT (Double Pole Double Throw) switch.

In this case, the pair of LED lighting modules 200 are configured in parallel to extend the lifetime of the LED lighting device by twice the operation of another LED lighting module built in parallel when the normal operation LED lighting module reaches the end of its life It is for this reason.

In addition, the DPDT (Double Pole Double Throw) switch 400 according to the embodiment of the present invention is a switching switch having at least two analog terminals. In general, in a switch, a pole is defined as the number of circuits controlled by the switch. A switch with one pole affects only one circuit. Throw is defined as the number of places where the pole of the switch is connected. Depending on how many poles and throws the switch has, it has a Single Pole Single Throw (SPST) with one input and one output, And a DPDT (Double Pole Double Throw) having six terminals, each of which is composed of two SPDT switches and two switches are simultaneously driven. These analog switches are less expensive than the non-contact type, are not affected by external noise, and have high electrical reliability.

Therefore, in the embodiment of the present invention, when the lifetime of the LED lighting module 200a that is in normal operation among the one or more LED lighting modules 200a and 200b is completed by switching the DPDT (Double Pole Double Throw) switch, The lifetime of the LED illumination device can be doubled by the operation of the illumination module 200b.

Referring to FIGS. 2 and 3, the one or more supply current branch circuits 300 are means for normally operating the entire LED chip array module when a specific LED chip array element is open, When a resistor R ₂ is connected in parallel to each of the LED chip array elements of the serial module and a specific element of the LED array array elements is short-circuited due to deterioration to open the entire module of the LED chip array element, It is a kind of protection device having a constant current bypass function for normal operation.

According to an embodiment of the present invention, the at least one supply current branch circuit 300 is a resistor (R ₂ ) element, the resistance value of R ₂ is 150 [?], And the LED chip Most operation current (20 mA) flows through the LED chip array device when the array device is in normal operation, and when the LED chip array device is opened, the at least one supply And flows to the resistor R ₂ of the current branching circuit so that the entire module of the LED chip array element can operate normally.

In the one or more supply current branch circuits 300 of the present invention, since the voltage across the resistor R ₂ is about 3 [V] (∵ 20 [mA] x 150 [Ω] = 3 [V]), A voltage drop of 3 [V] in a steady state can be maintained even though the chip array element is opened, and a constant current of 20 [mA] flows through the entire LED array. In this case, the resistance value of R ₂ may be calculated and applied according to the type and characteristics of the LED chip array device in which the LED lighting device is used.

이다. 본 발명의 실시 예에 따른 도 2를 참조하여, LED 칩 소자의 정상 동작 시 순방향 전압강하(V_F)가 약 3[V]이고, 흐르는 동작전류(I_F)가 약 20[mA]이라면, LED 칩 배열 소자의 온(ON) 저항 값은 약

가 된다. 따라서 직렬회로를 갖는 한 쌍의 LED 직렬모듈(100)에서 각각의 LED 칩 배열 소자의 온(On) 저항 값보다 상대적으로 큰 소자의 저항 R₂ 값을 150[Ω]으로 연결함으로써, 특정 LED 칩 배열 소자가 열화로 인해 단락(Short) 후 개방(Open)될 경우, 공급전류의 분기회로를 제공하여 정전류(Constant Circuit)의 흐름을 자연스럽게 바이패스(By-Pass)시켜 다른 정상적인 LED 칩 소자에 설정된 정전류를 흘러주어 LED 조명장치가 정상적으로 동작하게 하는 독특한 특징을 갖는다고 할 수 있다.In other words, an operating current of 0.02 [A] (20 mA) flows through the resistor R ₂ of 150 [Ω] and the LED of 2 [V]. When a rated voltage of 5 [V] is applied, a voltage drop (V _F ) of 2 [V] - 5 [V] = 3 [V] occurs. Therefore, applying the Ohm's law, the constant current (I _F ) for operating the LED chip element is

to be. 2 according to an embodiment of the present invention, when the forward voltage drop (V _F ) is about 3 [V] and the flowing operation current I _F is about 20 [mA] in the normal operation of the LED chip element, The ON resistance value of the LED chip array element is about

. Therefore, by connecting the resistance R _{2 of a} device relatively larger than the ON resistance value of each LED chip array element in a pair of LED serial module 100 having a series circuit to 150 [?] When the array element is short-circuited due to deterioration and then opened, a branch circuit of the supply current is provided to naturally bypass the flow of the constant circuit to set the other normal LED chip element It has a unique characteristic that the LED lighting device operates normally by flowing a constant current.

Referring to FIGS. 2 and 3, the DPDT (Double Pole Double Throw) switch 400 is a means for driving another LED lighting module when one of the pair of LED lighting modules reaches the end of its life, The LED lighting module of the present invention operates other LED lighting modules installed in parallel when the lifetime of the specific lighting module ends due to an abnormal failure during operation.

According to an embodiment of the present invention, the DPDT (Double Pole Double Throw) switch 400 switches the switches so that the LED lighting modules 200a and 200b, which are in normal operation among the pair of LED lighting modules 200a and 200b, ), The lifetime of the LED lighting device can be doubled by operating other LED lighting modules 200b built in parallel.

2 and 3, a resistor R ₁ (500) for limiting the total current is a means for limiting the total current supplied to the pair of LED lighting modules 200, and the resistor R ₁ (500)

이고,

ego,

는 한 쌍의 LED 조명모듈에 인가되는 전압,

은 LED 어레이 총 전압강하,

(0.6~0.7V)는 순방향전압이 LED 칩 배열 소자에 걸렸을 때 전류가 급격하게 증가하는 문턱전압 및 I_S는 요구되는 LED 어레이 총 공급전류이며,Here,

A voltage applied to the pair of LED lighting modules,

LED array total voltage drop,

(0.6-0.7 V) is the threshold voltage at which the current increases sharply when the forward voltage is caught by the LED chip array device, and I _S is the total LED array supply current required,

The resistor R ₁ And is determined in consideration of the total voltage drop of the LED array and the threshold voltage when the LED array total supply current and the LED array are installed before the DPDT switch 400.

Here, the device of the resistor R ₁ (500) for limiting the total current is provided at the front end of the DPDT (Double Pole Double Throw) switch 400 so that the total current supplied to the pair of LED lighting modules 200 There is a need to limit. The reason for this is that the light emitting diode (LED) is very sensitive to the constant current. That is, since the LED lighting device is realized by modularization of the LED chip array device, the voltage applied to the resistor in the short-circuit mode rises and the rated current is exceeded due to the rise of the constant current (I _F ) If there is a large deviation in the forward voltage (V _F ) of the device, the current is shifted to the LED chip array device having a lower forward voltage, which causes a variation in brightness, which affects the overall brightness of the lighting device. In the open mode, There is a unique characteristic that it is possible to control the phenomenon in which the risk of becoming high is high.

Referring to FIGS. 2 and 3, in the LED device protection circuit which can extend the service life of the LED lighting device according to the preferred embodiment of the present invention, when a user mistakenly supplies the supplied DC power and connects them in reverse, And a half-wave rectifying diode (D, 600) is provided to prevent current from flowing through the device.

2 and 3, the LED device protection circuit that can prolong the life of the LED lighting device according to the embodiment of the present invention has the following actions and effects.

The present invention relates to a pair of LED lighting modules (100) connected in parallel to one another in which one or more high-brightness LED (Light Emitting Diode) chip elements are arranged in a serial manner and branched by switching the DPDT switch (200), and a specific LED chip element of the LED lighting module is short-circuited due to deterioration to open the entire LED chip array module normally by a constant-current bypass (bypass) (300) having a plurality of resistive R ₂ devices for operating a plurality of LED lighting modules, and a DPDT (Double) circuit for operating another LED lighting module incorporated in parallel when the pair of LED lighting modules A resistor R ₁ 500 device including a Pole Double Throw switch 400 and a mathematical algorithm for limiting the total current supplied to the pair of LED lighting modules 200, 400) And a half-wave rectifier diode (D) 600 for preventing a current from flowing to the arranged LED chip devices when a fault occurs in an applied DC power supply, the LED device protecting circuit The lifetime can be doubled without replacing the LED lighting device, which is relatively expensive compared to the high-brightness LED chip device, and it can be easily applied by the existing LED lighting device manufacturer, There is a unique feature that can secure differentiation and market competitiveness of lighting devices.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: a pair of LED serial modules 200: a pair of LED lighting modules
300: at least one supply current branch circuit 400: DPDT switch
500: Resistance to limit the total current R ₁ 600: Half-wave rectifier diode D

Claims (5)

A pair of LED serial modules (100) in which one or more high-brightness LED (Light Emitting Diode) chip array elements constitute a series circuit;
And a pair of LED lighting modules (200) constituting a parallel circuit so that the pair of LED serial modules can be branched by switching the DPDT switches;
In addition, when a resistor R ₂ is connected in parallel to each of the LED chip array elements of the pair of LED serial modules and a specific element of the LED chip array elements is short-circuited due to deterioration, At least one supply current branch circuit (300) having a constant current bypass function for normally operating the entire chip array module;
And a DPDT (Double Pole Double Throw) switch 400 for operating another LED lighting module built in parallel when the lifetime of the specific LED module is terminated due to an abnormal failure during operation of the particular LED module,
The value of the resistor R ₁ (500) for limiting the total current supplied to the pair of LED lighting modules (200)

ego,
Here,

A voltage applied to the pair of LED lighting modules,

LED array total voltage drop,

(0.6-0.7 V) is the threshold voltage at which the current increases sharply when the forward voltage is caught by the LED chip array device, and I _S is the total LED array supply current required,
The resistor R ₁ And the LED array is provided in front of the DPDT switch 400 and is determined in consideration of the total supply current of the LED array and the total voltage drop of the LED array and the threshold voltage during operation of the LED array. Protection circuit.
The method according to claim 1,
Wherein the at least one supply current branch circuit (300) is a resistor (R ₂ ) element, the resistance value of R ₂ is 150 [OMEGA], and the LED chip array element having the series circuit operates at an operating current Flows through the LED chip array element and flows into the resistor R ₂ of the at least one supply current branch circuit having a bypass function when the LED chip array element is opened, And the entire module of the device is allowed to operate normally.
The method according to claim 1,
When the LED lighting module 200a, which is in the normal operation among the pair of LED lighting modules 200a and 200b, has reached the end of its life, the DPDT switch (Double Pole Double Throw) And the lifetime of the LED lighting device is doubled by operating the other LED lighting module (200b).
delete The method according to claim 1,
A half-wave rectifier diode (D) 600 is provided to prevent a current from flowing to the LED chip array device when the DC power source supplied to the LED device protection circuit that can extend the lifetime of the LED illumination device is reversely connected LED device protection circuit that can extend the lifetime of LED lighting device.

Images