KR100638842B1 - a ballast stabilizer circuit of cold cathode - Google Patents

Abstract

The present invention relates to a circuit of a cold cathode ballast.

The present invention is connected to the rectifier 12, the pulse width modulation control unit 13 and the output driver 14 for this purpose, the constant voltage unit 17 is built in a constant voltage diode to supply a constant rectified voltage even when the input voltage changes It is characterized by being provided.

The present invention configured as described above has a simpler magnetic force than the conventional circuit to significantly reduce the defect rate and also prevents the loss of defects due to the temperature rise of the electrolyte because it uses a polyester capacitor instead of the existing electrolytic capacitor. Furthermore, in order to supply constant rectified voltage at all times even with the change of input voltage, constant voltage diode was selected, which greatly improves the quality and reliability of the product, and also gives the consumer a good image.

Pulse width modulation control unit, constant voltage unit, cold cathode, ballast.

Description

A ballast stabilizer circuit of cold cathode             

1 is a block diagram showing the technical configuration of a conventional cold cathode ballast.

2 is a circuit diagram of a conventional cold cathode ballast.

Figure 3 is a block structure showing the technical configuration of the cold cathode ballast applied to the present invention

        Saint.

4 is a circuit diagram of a cold cathode ballast applied to the present invention.

5 is a perspective view showing a cold cathode ballast applied to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: ballast 11: line filter

12: rectifier 13: pulse width modulation control unit

14: output driver 15: transformer for output

16: cold cathode discharge lamp 17: constant voltage portion

The present invention relates to a circuit of a cold cathode ballast, and more particularly, by using a simple magnetic formula compared to the existing circuit to significantly reduce the failure rate and also because the use of a polyester capacitor instead of the conventional electrolytic capacitor temperature of the electrolyte In order to prevent the loss of defects caused by the rise, moreover, the constant voltage diode was selected to supply a constant rectified voltage even when the input voltage changes, which greatly improves the quality and reliability of the product, It is to help you plant a good image.

As is well known, the name 'cold cathode' is determined by the type of electrode and is determined by the positive or negative electrode at the electrode. Generally, the filament is specially coated and the filament is heated when the lamp is lit. That is, the light is turned on because it is continuously dissipating high heat. Therefore, fluorescent lamps are called 'HOT CATHODE'. And the electrode of the cold cathode lamp is a special shell (SHEEL) with one end open, the inside is specially coated. It looks similar to a normal neon electrode, but its size is different, and the current is not 20-30mA, but 120-200mA is different from neon electrode. It is called 'COID CATHODE' because it operates at a lower temperature than the filament electrode of a fluorescent lamp when it is turned on.

Cold cathode lamps are usually Ø35mm. Transformers use high voltage like neon, but mainly transformers of 2000 to 5000V. In the past, when cold cathodes were used for lighting instead of fluorescent lights, one, two or four lamps were connected to the ballaster. But now all cold cathode lamps use high voltage transformers. Cold cathode lamps have long electrodes and unique shapes, so their lifetime is not affected by the number of starters. In other words, since the lifetime is the same as the neon tube, the lifetime of the starter is significantly different from that of fluorescent lamps. Cold Cathode's standard warm white color (WARM WHITE COLOR) has a brightness of 310 lumens per foot when it is 120mm in Ø25mm outer diameter. Cold cathode lamps have a much higher rate of light dissipation than regular neons when compared to 140 LUMEN at 30 mA and 240 LUMEN at Ø15 mm at 60 mA. Cold cathode lamps are halfway between fluorescent and neon and have several advantages.

Fluorescent lamps are limited to a certain standard and color, but cold cathode lamps can be produced in any shape or length, such as neon, and can produce all the colors that neon produces. And the shape of the electrode 'L' can eliminate the shadow of the socket portion of the fluorescent lamp. In addition, fluorescent lamps have a dimming effect of about 40-50% of the overall brightness even if expensive dimmers are used in special ballasts, whereas cold cathodes can be dimmed to less than 10% using ordinary dimmers. In other words, the brightness of the light can be adjusted widely. However, since Korea has only been using cold cathode lamps for about two years, production experience is lacking. It's easy to assume that colt cathode is a kind of neon tube, and the process of vacuum tube, pumping, bombarding, etc. should not be considered the same as a normal neon tube. When manufacturing cold cathode, it should be carried out with special technical data from design, manufacture, and construction such as vacuum pressure according to pipe diameter, selection of pipe for transformer capacity and load selection at dimming.

Cold cathode lamps are suitable for indoor and outdoor direct and indirect lighting in department stores, hotels, hospitals, theaters, banquet halls, as well as homes. In particular, it is applied to curved or unusually shaped ceilings or walls, special sculptures and art lighting that cannot use fluorescent lamps. However, because it requires higher voltage and current than general lighting, the materials and installation standards of the standard products must be suitable, and especially the electrical safety rules must be strictly observed.

The cold cathode as described above is driven by the ballast, the technical configuration thereof is as shown in Figs.

That is, the line filter 1, the rectifier 2, the pulse width modulation control unit 3, the output driver 4, the output transformer 5, the cold cathode discharge lamp 6, the power factor improving circuit 7 and the smoothing circuit ( It is composed of 8) and most of the circuit methods currently used.

Such a circuit method has a disadvantage in that the price is high and the number of parts is high due to the type (exclusive oscillation parts).

In more detail, the conventional ballast circuit adopts a power factor correction circuit (PEC) 7 and a pulse width control circuit (PWM) for controlling the switching time of the transistor. There is a disadvantage in that the price is high because the semiconductor component (power factor improvement circuit and pulse width control-only component) is used, which causes a high probability of failure.

In addition, the conventional technology has a problem of shortening the lifespan by using a smoothing capacitor, that is, the current condenser (aluminum condenser) has a shorter lifespan in proportion to the temperature (e.g., the electrolyte is abruptly shortened by the internal temperature rise of the product). Phenomenon).

Furthermore, the conventional technology has a problem that the countermeasure due to the inflow of the surge voltage is insufficient, that is, the countermeasure may be caused when excessive voltage is introduced due to the inadequate countermeasure due to the variation (overvoltage) of the input voltage.

The present invention has been made to solve the above problems of the prior art, the circuit of the present invention for driving the cold cathode and the external electrode type argon lamp magnetically to obtain an appropriate output voltage in response to the load change The first purpose is to obtain a more stable voltage, so that the second purpose is to configure the magnetic force simpler than the existing circuit to significantly reduce the failure rate, and the third purpose is to provide a conventional electrolytic capacitor. Instead, polyester capacitors are used to prevent the loss of defects caused by the temperature rise of the electrolyte, and the fourth purpose is to adopt a constant voltage diode to supply a constant rectified voltage even when the input voltage changes. This greatly improves the quality and reliability of our products, It provides a circuit of the cold cathode ballast one to instill the image.

In order to achieve the above object, the present invention provides a line filter 11, a rectifier 12, a pulse width modulation control unit 13, an output driver 14, an output transformer 15, and a cold cathode discharge lamp 16. And a constant voltage unit 17 connected to the rectifier 12, the pulse width modulation control unit 13, and the output driver 14, and having a constant voltage diode built therein to supply a constant rectified voltage even with a change in input voltage. In the ballast to prevent the increase of the current is provided, the constant voltage unit provides a circuit of a cold cathode ballast, characterized in that made of a magnetic force using a DC voltage generated in itself.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this purpose are as follows.

The circuit of the cold cathode ballast applied to the present invention is configured as shown in Figs.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and their definitions should be made based on the contents throughout the specification.

First, the present invention includes a rectifier 12 for rectifying an AC current and a line filter 11 of a power supply, a pulse width modulation controller 13 for controlling a switching time of a transistor, and an output driver 14 having an amplification element. In addition, an output transformer 15 for inductively coupling two electric circuits and a cold cathode discharge lamp 16 using photoelectron emission and secondary electron emission or electric field emission are configured to include a ballast 10 for preventing an increase in current. The rectifier 12, the pulse width modulation controller 13, and the output driver 14 are connected to a constant voltage unit 17 having a constant voltage diode therein so as to supply a constant rectified voltage even when the input voltage changes. .

In addition, the present invention is characterized in that the circuit of the constant voltage section 17 is made of a magnetic force using a DC voltage generated by itself, which can obtain a more stable voltage by obtaining an appropriate output voltage in response to the load change It is in making it possible.

The present invention is also characterized in that the use of a polyester capacitor (Metallized Poiyester Film Capacitor) in the rectifier circuit to prevent the loss of defects caused by the temperature rise of the electrolyte, which can ensure a longer life than conventional products It is characterized by the presence.

Furthermore, the present invention is characterized in that the inlet of the ballast 10 is provided with an insulating epoxy coating layer to protect the circuit and to prevent moisture and static electricity.

On the other hand, the present invention may be variously modified and may take various forms in applying the above configuration.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation of the circuit of the cold cathode ballast of the present invention configured as described above are as follows.

First, the circuit of the ballast 10 applied to the present invention is applied to the light source of the LCD backlight and the small panel, the so-called argon of cold cathode (CCFL) and External Electrode Fluorescent Lamp (EEFL) It can be applied to driving lamps, and can be used as indirect lighting in subways, public places or advertisements in the future.

According to the present invention, an output transformer 14 having a common power supply (100 to 240 V AC) having a negative power connected in parallel with the power supply is connected to the DC power rectified through the rectifier 12 via the line filter 11 in parallel. Is a circuit device that connects the primary side and rectifies the AC output on the secondary side to obtain a voltage stabilized power supply.

In more detail, the present invention alternately turns on and off Q1 and Q2 of the output driver 14 by a push pull inverter method, and the energization time of each transistor is controlled by the pulse width modulation controller 13. The desired output voltage can be obtained by changing the duty cycle. Since Q1 and Q2 are alternately turned on and off, voltage is applied to the output transformer 15 in the reverse direction of Q1 and Q2, so that an AC voltage is obtained on the transformer secondary side.

In addition, by supplying a constant DC voltage at a constant voltage inside the pulse width modulation control unit 13 to the transistor, the output voltage is always constant even when the input voltage changes, so that a stable AC voltage is supplied to the output side (load side).

On the other hand, the present invention consists of a magnetic circuit is very simple compared to the existing circuit, the advantage of low cost and the possibility of failure occurs due to the absence of semiconductor components (e.g. power factor improvement circuit and pulse width control dedicated components) It is considerably lower than the product.

In addition, conventional capacitors (e.g., electrolytic capacitors) used for smoothing are mostly aluminum capacitors, which can be said to have very poor performance against temperature. However, the rectifier 12 circuit applied to the present invention has a defect loss caused by an increase in temperature of the electrolyte. As a result, a polyester capacitor film (Polyester Poiyester Film Capacitor) is provided to ensure longer life than existing products, as well as to maintain reliability and reduce defects.

The ballast circuit of the present invention adopts a constant voltage diode to supply a constant rectified voltage even when the input voltage is changed at all times. In particular, the cause of the defect is considered to be generated when a high voltage is introduced. Since the protection constant voltage diode is built in, it can be said that the defect rate is greatly reduced compared to the prior art.

Furthermore, the present invention can be said to achieve a constant control by hybridizing the pulse width modulation control unit 13 of the dedicated magnetic module (HIC), and the inlet of the ballast 10 is coated with an insulating epoxy coating so that moisture and external In order to control the impact always.

As described in detail above, the present invention is a circuit of the present invention for driving a cold cathode and an external electrode type argon lamp to obtain a more stable voltage by obtaining an appropriate output voltage in response to a load change in a magnetic manner It is designed to reduce the defect rate significantly by using a simple magnetic formula compared to the existing circuit, and to prevent the loss of defects due to the temperature rise of the electrolyte because it uses a polyester capacitor instead of the existing electrolytic capacitor, The constant voltage diode was selected to supply constant rectified voltage even with the change of input voltage. This is a very useful invention that greatly improves the quality and reliability of the product and allows the consumer to plant a good image.

Claims (4)

delete The rectifier 12 includes a line filter 11, a rectifier 12, a pulse width modulation control unit 13, an output driver 14, an output transformer 15, and a cold cathode discharge lamp 16. ) Is connected to the pulse width modulation control unit 13 and the output driver 14, and a constant voltage unit 17 with a constant voltage diode is provided to supply a constant rectified voltage even when the input voltage changes. In the ballast to prevent, The circuit of the cold cathode ballast, characterized in that the constant voltage portion is made of a magnetic force using a DC voltage generated from itself. According to claim 2, The rectifier circuit of the cold cathode ballast characterized in that the use of a polyester capacitor (Metallized Poiyester Film Capacitor) to prevent the loss of losses due to the temperature rise of the electrolyte. According to claim 2, The circuit of the cold cathode ballast, characterized in that the inlet of the ballast is provided with an insulating epoxy coating layer to protect the circuit and prevent moisture and static electricity.

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