KR20060021426A - Back-light driving circuit and driving method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a backlight driving circuit and a driving method thereof for improving a problem of display abnormality caused by the influence of a burst mode inverter driving.

This is implemented by eliminating frequency interference caused by the interaction between the liquid crystal panel and the lamp on / off driving frequency of the backlight driving inverter, including: a burst dimming pulse oscillator for outputting a burst dimming pulse; A burst dimming pulse modulator for receiving the burst dimming pulse and irregularly converting the period to output the burst dimming pulse; A backlight driving circuit for a liquid crystal display including an inverter for outputting a lamp driving current for lamp lighting by using the burst dimming pulse in which the period is irregularly converted, and burst burst dimming pulse generated to have an irregular period to the inverter It is realized by the method of controlling the lighting of the lamp by input.

Description

Backlight driving circuit and driving method thereof for liquid crystal display device             

1 is a view showing a cold cathode fluorescent lamp for a general liquid crystal display device

2 is a circuit diagram illustrating a burst dimming mode inverter circuit generally used for driving an inverter in a liquid crystal display device.

3 is a diagram illustrating a burst dimming pulse and a lamp driving current output waveform according to the inverter circuit driving shown in FIG.

4 is a simplified view of the output waveform of FIG.

5 is a block diagram showing a configuration of a backlight driving circuit for a liquid crystal display according to the present invention.

6 is a diagram illustrating a burst dimming pulse and a lamp driving current output waveform according to an operation of a backlight driving circuit for a liquid crystal display according to the present invention.

<Brief description of the main parts of the drawing>

32: burst dimming pulse oscillator 34: burst dimming pulse modulator

36: inverter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device and a driving method thereof, and more particularly, to a backlight driving circuit for improving wave noise generated in driving a burst mode inverter for a liquid crystal display device and a driving method thereof.

Recently, due to the technological development of the semiconductor industry, which is rapidly developing, products are being produced that are more compact and lighter in performance. Cathode ray tubes (CRTs), which are widely used in information display devices, have many advantages in terms of performance and price, but have disadvantages in terms of miniaturization or portability. On the other hand, liquid crystal displays have been attracting attention as an alternative means of overcoming the shortcomings of CRTs because they have advantages such as small size, light weight, and low power consumption, and are currently installed in almost all information processing devices requiring display devices. It's happening.

The liquid crystal display device converts optical properties such as birefringence, photoreactivity, dichroism, and light scattering characteristics of a liquid crystal cell that apply a voltage to a specific molecular array of liquid crystals, convert them into other molecular arrays, and emit light by the molecular array. Is a display device using modulation of light by a liquid crystal cell by converting the light into a visual change.

Since the liquid crystal display is a light receiving element that does not emit light by itself, the liquid crystal panel is illuminated by using a backlight attached to the rear surface of the liquid crystal panel. The light transmittance of the liquid crystal panel is adjusted according to an applied electrical signal, and a still image or a moving image is correspondingly represented on the liquid crystal panel.

As described above, a cold cathode fluorescent lamp (CCFL) is generally used in a backlight unit that supplies light to a liquid crystal panel. The cold cathode fluorescent lamp is a fluorescent lamp commonly known to us. While it is lit on the same principle as the Hot Cathode Fluorescent Lamp, the hot cathode fluorescent lamp is lighted by electron emission by heat, while the cold cathode fluorescent lamp is lighted by electron emission by electric field applied to the electrode and the amount of heat generated is very small. Is showing a difference.

FIG. 1 illustrates an example of such a cold cathode fluorescent lamp, wherein a glass tube 10 filled with a mixed gas such as mercury, argon, neon, and the like is coated on an inner wall of the phosphor 11, and the glass tube 10. A sealing portion 12 mounted at both ends to prevent the mixed gas from leaking out, a lead wire 14 penetrating through the sealing portion 12 and extending from the outside of the glass tube 10 into the glass tube 10, and the glass tube (10) A cover 18 surrounding the electrode 16 connected to the end of the lead wire 14 inside both ends and the lead wire 14 from the sealing portion 12 to the electrode 16 inside both ends of the glass tube 10. )

The cold cathode fluorescent lamp having such a structure is characterized in that the diameter of the glass tube 10 is very thin so as to reach a few millimeters, and when the high-current current flows through the lead wire 14 to the both ends of the electrode 16, the both ends of the electrode 16 ) Emits electrons and generates an ionization reaction with mercury, and the mercury is excited by the reaction to emit high frequency energy, that is, ultraviolet rays, and the phosphor 11 inside the glass tube 10 converts the ultraviolet wavelength into visible light wavelength. Lights up while switching to the area. At this time, as the electrode 16 of the cold cathode fluorescent lamp, tungsten, nickel, alumina, etc. are mainly used, and nickel which can easily change the cross-sectional area while reducing mercury is used the most.

Here, as the phosphor of the cold cathode fluorescent lamp, highly efficient rare earth element Y (yttrium), Ce (cerium), Tb (terbium), and the like are mainly used. The three wavelength type of the white system which mixed the fluorescent substance which emits blue light is mainly used.

In order to drive the fluorescent lamp, which is the backlight unit of the liquid crystal display device described above, an inverter driving circuit is usually used. In particular, a soft start for reducing the EMI noise generated by the backlight inverter is used. Burst mode inverter circuit is used.

2 is a circuit diagram illustrating a burst dimming mode inverter circuit generally used for driving an inverter in a liquid crystal display.

Burst dimming is a method of controlling brightness by adjusting a ratio of on / off time of a backlight lamp. The burst dimming is performed by inputting a burst dimming pulse signal of several hundred hertz (Hz). The inverter dimming (controlling the brightness of the lamp) is realized by controlling the amount of current supplied to the inverter load (ie, the lamp) as a whole by stopping the operation of the inverter switching circuit during the high period of the signal. .

In the illustrated burst dimming mode inverter driving circuit, the burst dimming pulse Bosc input to the operational amplifier 20 inside the dotted line region display is the same as that of FIG. 3, and hereinafter, FIG. 4 briefly illustrates the output graph of FIG. 3. Will be explained.

Referring to the type of output illustrated in the graph of FIG. 4, a burst dimming pulse Bosc for controlling brightness of a lamp and a lamp current I _L output waveform controlled by the burst dimming pulse Bosc are illustrated.

Each burst dimming pulse which performs such driving has a relationship in which the period is input equally, that is, B1 = B2, and has a relationship of B1 = B2 = (T1 + T2). At this time, T1 is an on section of the lamp and T2 is an off section.

As described above, the on / off period of the lamp (B1 = B2 = T1 + T2) is repeatedly turned on at the same time interval and is driven. The frequency (hereinafter referred to as burst frequency) is usually driven at a fixed frequency of 200 to 300 Hz. In this case, a reciprocal action is caused by frequency interference with a liquid crystal panel having a driving frequency of 60 Hz. In the opposite direction, noise such as wave flow is generated.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to improve a screen abnormality caused by driving a burst mode inverter of a liquid crystal display.                         

To this end, an object of the present invention is to provide a backlight driving circuit and a driving method including an inverter capable of removing wave noise generated by the interaction between the liquid crystal panel and the on / off driving frequency of the backlight driving inverter. have.

In order to achieve the above object, the present invention provides a backlight driving method for a liquid crystal display device, characterized in that the lighting of the lamp is controlled by inputting a burst dimming pulse having an irregular period to the inverter.

In order to realize this, the present invention includes a burst dimming pulse oscillator for outputting a burst dimming pulse; A burst dimming pulse modulator for receiving the burst dimming pulse and irregularly converting the period to output the burst dimming pulse; A backlight driving circuit for a liquid crystal display device including an inverter for outputting a lamp driving current for lighting a lamp by using a burst dimming pulse in which the period is irregularly converted.

Wherein the lamp is a cold cathode fluorescent lamp.

The burst dimming pulse is a voltage having high and low levels.

The burst dimming pulse is a voltage signal having phases of high and low levels.

The burst dimming pulse input to the inverter is characterized in that it has a frequency band between 200 ~ 300Hz.                     

Hereinafter, a backlight driving circuit for a liquid crystal display device and a driving method thereof according to the present invention will be described with reference to the accompanying drawings.

First, the core of the present invention is to drive the inverter by a burst dimming pulse input at irregular intervals for driving the burst mode inverter of the liquid crystal display backlight lamp. This has been proposed as a way to improve the phenomenon of wave noise on the screen due to the influence of the frequency interference caused by the interaction between the lamp driving frequency and the liquid crystal display driving frequency by the burst dimming pulse, and continuously input to the inverter By randomly changing the period of each burst dimming pulse to be input, the interaction caused by the driving frequency interference is minimized.

To this end, a preferred configuration of the backlight driving circuit 30 for the liquid crystal display device proposed in the present invention is shown in the block diagram of FIG.

The burst dimming pulse oscillation part 32 of the block diagram shown in figure shows the burst dimming pulse Bosc for controlling the lamp switching operation of the inverter circuit for driving a backlight lamp of a liquid crystal display device. At this time, the output burst dimming pulse has a frequency of 200 ~ 300Hz band, the form is possible all waveforms to repeatedly output the phase of the high level and the low level, but preferably in FIG. It has a triangular waveform as shown.

The burst dimming pulse modulator 34 receives the burst dimming pulse Bosc output from the burst dimming pulse oscillator 32 and converts and outputs a period T for each pulse. At this time, each pulse Bosc-t that is cycle-converted and output through the burst dimming pulse modulator 34 is converted and outputted so that its period is different from that of an adjacently output pulse, and a pulse frequency band according to the modulated period The conversion is performed randomly within a range of several to several tens of hertz of an unmodulated burst dimming pulse (Bosc) output frequency.

The inverter 36 receives a burst dimming pulse Bosc-t output from the burst dimming pulse modulator 34 that is randomly modulated and outputted from the burst dimming pulse modulator 34, and controls switching of current supply for lighting of the cold cathode fluorescent lamp. The on / off section of the ramp occupying each section of the modulated burst dimming pulse Bosc-t is formed in proportion to the modulated period.

Looking at the shape of the burst dimming pulse (Bosc-t) input to the burst mode inverter driven through the above configuration can be shown as shown in FIG.

The burst dimming pulse Bosc having the same period output from the burst dimming pulse oscillator 32 is irregularly modulated by the burst dimming pulse modulator 34 so that (T _D1 ), (T _D2 ), (T _D3 ) and the inverter 36 receives the burst dimming pulse Bosc-t with the period modulated as described above to perform the burst mode on / off driving of the lamp.

The lamp operated by the burst dimming pulse Bosc-t modulated as described above has an on / off section in which the lamp driving current I _L is applied in proportion to the modulation ratio of the pulse period as shown in Equation (1). In this case, when the on / off driving is performed by the burst dimming pulse having the irregular period, the interaction with the driving frequency of the liquid crystal display device, which is usually driven at 60 Hz, does not occur and thus is not affected by the mutual frequency interference.

Equation (1) T _D1 : T _D2 : T _D3 = T _D1-ON : T _D2-ON : T _D3-ON = T _D1-OFF : T _D2-OFF : T _D3-OFF

The backlight driving circuit and driving method thereof according to the present invention as described above eliminate the influence of frequency interference caused by the interaction between the backlight lamp on / off repetitive driving frequency and the liquid crystal display driving frequency, thereby preventing waves from flickering and the like. This has the effect of improving screen abnormalities such as noise.

In addition, by changing the on / off period of the lamp there is an advantage that can be stable for a long time by preventing excessive heating of the backlight lamp, such as cold cathode fluorescent lamp for liquid crystal display device.

Claims (6)

A burst dimming pulse oscillator for outputting a burst dimming pulse; A burst dimming pulse modulator for receiving the burst dimming pulse and irregularly converting the period to output the burst dimming pulse; Inverter outputting lamp driving current for lamp lighting by using burst dimming pulse with irregularly converted period Backlight driving circuit for liquid crystal display device comprising a The method according to claim 1, The lamp is a backlight driving circuit for a liquid crystal display device, characterized in that the cold cathode fluorescent lamp The method according to claim 1, The burst dimming pulse is a voltage signal having phases of high and low levels. The method according to claim 1, The inverter includes both an on / off driving region of a lamp within one period of burst dimming pulse application time. A backlight driving method for a liquid crystal display device comprising controlling a lamp to be turned on by inputting a burst dimming pulse having an irregular period into an inverter. The method according to claim 5, Burst dimming pulse input to the inverter has a frequency band between 200 ~ 300Hz, the backlight driving method for a liquid crystal display device

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