KR100996670B1 - Led lighting of electronic stabilizer type - Google Patents

Abstract

PURPOSE: An electronic ballast type LED fluorescent lamp is provided to extend the lifetime of an LED by arranging a plurality of LEDs in series or parallel. CONSTITUTION: An overcurrent blocking unit(101) is comprised of a pair of fuses and blocks the overcurrent over a preset value. An inductor of a filament unit(102) is connected to an output terminal of the pair of fuses. An impedance matching unit(103) matches the output impedance of the electronic ballast with the input impedance of the LED fluorescent lamp. The inductor of the impedance matching unit is connected to both ends of the inductor of the filament unit. A DC rectifier(104) converts input AC driving power into DC driving power. A DC constant voltage generating unit(105) charges and discharges the DC driving power converted by the DC rectifier.

Description

{LED LIGHTING OF ELECTRONIC STABILIZER TYPE}

The present invention relates to an electronic ballast type LED fluorescent lamp that stabilizes the AC power applied from the power supply to convert to DC power, and drives the LED lamp with the converted DC power, and more specifically, without a separate additional device fluorescent lamp socket The present invention relates to an electronic ballast type LED fluorescent lamp that can be used by mounting a general-purpose LED module.

In general, fluorescent lamps are widely used due to advantages such as long life and low power consumption compared to incandescent lamps. However, there is a serious problem that mercury flowing out of the fluorescent tube causes environmental pollution in the disposal of the fluorescent lamp after use.

Recently, technologies to replace fluorescent lamps with LEDs have been proposed to solve these problems. LEDs can not only solve environmental pollution problems, but also save energy by about 30% compared to fluorescent lamps. Is rising.

Conventional LEDs are applied to fluorescent lamps in order to replace only fluorescent lamps with LED lights in the state where a conventional fluorescent lamp ballast is installed, and Korean Patent No. 10-0821975, No. 10-0844538, No. 10-2007-95764 .

However, since the conventional technology can use only the LED module made in a special form to be mounted on the fluorescent lamp socket, there is a problem that the general-purpose LED module cannot be used. That is, there is a disadvantage that the general-purpose LED module can not be mounted in the fluorescent lamp socket without a separate additional device

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electronic ballast-type LED fluorescent lamp that can be used with a general-purpose LED module mounted on a fluorescent lamp socket without a separate additional device.

According to an aspect of the present invention, there is provided an electronic ballast type LED fluorescent lamp,

Filament part having a pair of fuses opposed to each other to block excessive current of a specified value or more, a filament unit having an inductor connected to each output end of the pair of fuses constituting the over-current blocking unit, both ends of the inductor of the filament unit An impedance matching unit configured to match the ballast output impedance of the electronic ballast and the input impedance of the LED lamp in the LED fluorescent lamp, the bridge diodes connected to the impedance matching unit. A DC rectifier for converting a power source into a DC driving power source such as an LED fluorescent lamp, and a capacitor installed and connected between the input terminal and the output terminal of the bridge diode of the DC rectifying unit to generate a constant DC power while charging and discharging the converted DC power. Characterized in that it comprises a DC constant voltage generator do.

Preferably, the diode is connected to the output terminal of the bridge rectifier of the DC rectifier and a diode connected to the output terminal of the LED lamp negative feedback, and the inductor provided between the diode and the LED lamp, the current, the voltage to maintain a constant LED fluorescent lamp And a constant voltage / current holding unit for causing the constant voltage / current holding unit to operate stably.

In addition, the LED lamp is characterized in that a plurality of different pieces forming the same group are arranged in series in the same order spaced apart by a set number.

LED fluorescent lamp of the electronic ballast type according to the present invention,

It solves the problem that general purpose LED module cannot be used because only LED module manufactured in a special form should be used for mounting in fluorescent lamp socket.

In other words, there is an effect that can be used by mounting a general-purpose LED module to the fluorescent lamp socket without any additional device.

1 is a circuit diagram showing an LED lamp of an electronic ballast type according to the present invention;
2A and 2B illustrate a preferred embodiment of an LED lamp structure in an LED fluorescent lamp according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the present invention.

However, the embodiments described below are merely to describe in detail enough to be able to easily carry out the invention by those skilled in the art, the scope of protection of the present invention is limited It does not mean.

In order to clearly describe the present invention, parts irrelevant to the description are omitted and like reference numerals denote like parts throughout the specification.

Throughout the specification and claims, when a part includes a certain component, it means that it may include other components, not to exclude other components unless specifically stated otherwise.

1 is a circuit diagram showing an electronic ballast type LED fluorescent lamp according to the present invention.

As shown in FIG. 1, the LED fluorescent lamp is composed of an overcurrent blocking unit 101, a filament unit 102, an impedance matching unit 103, a DC rectifying unit 104, and a DC constant voltage generating unit 105. .

That is, the overcurrent blocking unit 101, which is a pair of mutually opposing fuses and blocks an excessive current exceeding a specified value, and a filament having an inductor connected to each output terminal of the pair of fuses constituting the overcurrent blocking unit 101 The unit 102 and the inductor of the filament unit 102 are connected to one another at each end of the inductor so as to face each other so that the electronic ballast output impedance and the input impedance of the LED lamp in the LED fluorescent lamp 106 are equally matched. DC rectifier 104 and bridge of DC rectifier 104 to convert an input AC drive power source into a DC drive power source of an LED fluorescent lamp, which is made of an impedance matching unit 103 and a bridge diode connected to the impedance matching unit 103. DC constant voltage generator 10 which is composed of a capacitor installed and connected between the input terminal and the output terminal of the diode to generate a constant DC power while charging and discharging the converted DC power (10) It is a structure of 5).

Further, a diode connected to the output terminal of the bridge diode of the DC rectification part 104 and connected to the output terminal of the LED lamp by negative feedback, and an inductor provided between the diode and the LED lamp maintains current and voltage constant And a constant voltage / current holding unit 107 for stably operating the LED fluorescent lamp.

Here, the overcurrent blocking unit 101 is a pair of fuses facing each other, and automatically blocks the input overcurrent when the overcurrent is input such that excessive current above a specified value does not continue to flow. Actually, when the overcurrent flows, it is cut into heat generated by the current. Since the signal is input to the input terminals a, b, c, and d alternately, if there is a fuse on only one side, the overcurrent entering to one side is protected, but the overcurrent entering to the other side is not protected. You need to install it.

The filament part 102 is provided with an inductor connected to each output terminal of the pair of fuses constituting the overcurrent blocking part 101, and is a circuit part for serving as a filament of a fluorescent lamp. In general, fluorescent electronic ballasts have a three-stage configuration consisting of cathode preheating (filament / preheating), starting voltage, and normal operation. Therefore, it is desirable to prevent the protection circuit from operating in the cathode preheating and starting voltage mode of the electronic ballast. , It should be able to serve as a filament from 10μH to 100μH or less.

Impedance matching unit 103 is composed of inductors connected to each other, one at each end of the inductor of the filament unit 102 so as to match the ballast output impedance and the input impedance of the LED lamp (Lamp) in the LED fluorescent lamp equally will be. It is a circuit part for matching the input impedance of the electronic ballast output impedance and the LED lamp (lamp) equally. Because of the many types of electronic ballasts, it is very difficult to equalize the input and output impedances. In general, a resistor is used to match the impedance, but the resistor has problems such as size heat dissipation. Difficult to match rated power. Since the circuit elements of L12, L13, L14, and L20 have both the L and R components of the tuning of the impedance, values of 100μH to 1,000μH are required to match the power ratings. The input a, b, c, and d And the power varies according to the capacitance values of L12, L13, L14 and L20, and the rated power consumption can be adjusted freely from 18W to 28W.

The DC rectifying unit 104 is a bridge diode connected to the impedance matching unit 103, and the bridge diode is an element for detecting the input AC driving power as a DC driving power source. The AC power input to the input terminals a, b, c, and d is converted into a DC power for driving the LED lamp.

The DC constant voltage generator 105 is composed of a capacitor installed and connected between the input terminal and the output terminal of the bridge diode of the DC rectifier 104 to generate a constant DC power while charging and discharging the converted DC power. DC voltage is generated by charging and discharging the components detected by DC. Although this capacitor generally uses an electrolytic capacitor, it has a problem in that it is used in an electronic ballast circuit due to its large capacity and long charging time. The electronic ballast operates in three stages: cathode preheating, starting voltage, and stable mode.When the electrolytic capacitor is used, the charging time is long, so a voltage of about 800V or more is applied in the cathode preheating and starting voltage mode. Because of the unsafe operation of the circuit. Therefore, it is important to maintain the charging and discharging time properly in the cathode preheating and starting voltage mode using a small capacity and film capacitor, and the time should be within 1 second. Cathode preheating / sec, starting voltage / sec should also maintain a constant DC voltage, so an appropriate capacity of 200μF to 470μF should be selected.

The constant voltage / current holding unit 107 is composed of a diode connected to the output terminal of the bridge diode of the DC rectifier 104 and negatively connected to the output terminal of the LED lamp, and an inductor installed between the diode and the LED lamp, LED In order to operate the fluorescent lamp stably, the current and the voltage are kept constant. In order to operate the LED stably, current and voltage must be kept constant. Using the driver coils of L3, L4 and L5, the voltage and current are adjusted to operate stably. The diode of D7 uses negative feedback.

The LED fluorescent lamp 106 is composed of a plurality of LED lamps and is driven by a DC power source. That is, when the frequency of the current applied from the power source is stabilized by the ballast, and the AC power is converted into the DC power through the bridge diode, it is driven by the converted DC power. In order to operate LEDs reliably, current and voltage need to be kept constant. To achieve this, 10 to 25 series drives must be driven in order to achieve proper power consumption of 18W to 28W.

Hereinafter, preferred structural aspects of the LED fluorescent lamp according to the present invention will be described with reference to FIGS. 2A and 2B

2A and 2B are diagrams illustrating a preferred embodiment of the LED fluorescent lamp structure according to the present invention.

As shown in Figs. 2A and 2B, in order to operate the LED stably, it is necessary to keep the current and voltage constant. For this purpose, it is required to be driven in 10 to 25 series methods to realize an appropriate power consumption of 18 W to 28 W. .

The LEDs are arranged in series in the same order with a plurality of different numbers forming the same group spaced apart by a set number.

The illustrated LED series and parallel circuits can prevent overload from the heat of the LEDs and ensure maximum life without the heat sink.

Due to the failure of the LED, wire bonding is performed by the gold thread between the light emitting chip and the multiple light emitting chips inside the LED, and the result is a phenomenon in which power is not delivered due to an open circuit in the case of overcurrent during fasting. .

Therefore, it is a rule to supply power to LED individually.

However, when a large amount of LEDs are used, a large amount of electric power must be produced. Therefore, the converter circuit is enormously large or dangerous because it uses dangerous electric power.

In the case of the simple series structure, when the LED breaks down, the entire LED of the series structure is turned on, and the LEDs are arranged at a certain number of intervals, and the LED failure is designed with minimal illumination when parallel design. As a result, optimal conditions can be achieved.

By arranging the individual array of LEDs in an appropriate number, it is possible to design a heat dissipation structure that minimizes the heat of the LED by designing the heat of the LED to the maximum heat dissipation structure by enlarging the connection circuit back plate.

Hereinafter, the operation of the electronic ballast type LED fluorescent lamp of the present invention of FIG. 1 is as follows.

The LED fluorescent lamp first stabilizes the frequency of the current applied from the power source. To this end, the overcurrent blocking unit 101 is a pair of fuses facing each other to block excessive AC power above a specified value. Impedance matching unit 103 composed of inductors connected to each other so as to be opposite to each other, one at each end of the inductor of the filament unit 102 is equally matched the output impedance of the electronic ballast and the input impedance of the LED lamp (Lamp) in the LED fluorescent lamp. When the frequency of the next current is stabilized, AC power is converted into DC power through the bridge diode of the DC rectifying unit 104, and the converted DC power is used to drive the LED lamp of the LED fluorescent lamp 106. At this time, the converted DC power is charged and discharged to generate a constant DC power by using a DC constant voltage generating unit 105 composed of a capacitor connected between an input end and an output end of the bridge diode of the DC rectifier 104 .

In addition, the constant voltage / current holding unit 107 is composed of a diode connected to the output terminal of the bridge diode of the DC rectifier 104 and a negative feedback to the output terminal of the LED lamp, and an inductor provided between the diode and the LED lamp. Keep the current and voltage constant so that the LED fluorescent lamp can operate stably.

Explanation of symbols on the main parts of the drawings
101: overcurrent blocking part 102: filament part
103: Impedance matching unit 104: DC rectifying unit
105: DC constant voltage generating unit 106: LED lamp
107: Constant voltage / current holding portion

Claims (3)

An overcurrent blocking unit which is a pair of mutually opposing fuses and blocks an excessive current exceeding a specified value;
A filament part having an inductor connected to each output terminal of a pair of fuses constituting the overcurrent blocking part;
An impedance matching unit configured of an inductor connected to both ends of the inductor of the filament unit so as to face each other so as to equally match an electronic ballast output impedance and an input impedance of an LED lamp in an LED fluorescent lamp;
A DC rectifier for converting an input AC driving power source into a DC driving power source such as an LED fluorescent lamp, the bridge diode being connected to the impedance matching unit; And
An electronic ballast type LED fluorescent lamp comprising a DC constant voltage generator configured to be connected between an input terminal and an output terminal of a bridge diode of the DC rectifying unit and connected to the capacitor to generate a constant DC power while charging and discharging the converted DC power. The method of claim 1,
It is composed of a diode connected to the output terminal of the bridge rectifier of the DC rectifier and a negative feedback to the output terminal of the LED lamp, and an inductor installed between the diode and the LED lamp, to maintain a constant current, voltage, LED fluorescent lamp stably And a constant voltage / current holding unit for causing the LED lamp to operate. The method of claim 1,
The LED lamp
An electronic ballast type LED fluorescent lamp characterized in that a plurality of different pieces forming the same group are arranged in series in the same order spaced apart by a set number.

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