KR20050095045A - Inverter circuit for driving back light - Google Patents

Abstract

An inverter circuit for driving a backlight is disclosed. The backlight driving inverter circuit includes: a driving unit for switching in accordance with a control signal to generate a driving voltage and driving at least one pair of lamps; Photo-coupler means for detecting a feedback current or an abnormal signal of the lamps generated by driving the lamps; And a control unit for generating a control signal according to the detected feedback current signal or the abnormal signal, thereby minimizing the generation of leakage capacitance and significantly reducing the stress applied to the lamp.

Description

Inverter Circuit for Driving Back Light

The present invention relates to an inverter circuit, and more particularly, to a backlight drive inverter circuit for reducing the stress applied to the lamp used in the backlight.

In general, a cold light lamp (Cold Cathode Fluorescent Lamp) or an external electrode cathode tube (External Electrode Fluorescent Lamp) is mainly used as a lamp for the back light.

The control circuit of an inverter used in a backlight device has a function of detecting a lamp current to keep the lamp current constant and a function of changing the lamp current by adjusting the lamp current.

In addition, in the control circuit of the inverter, when the lamp is damaged by detecting the current of the lamp, when the wire connecting the inverter and the lamp is cut off, or when the connector connecting the inverter and the lamp is opened, the inverter circuit side By detecting the abnormality of the lamp itself or the connection between the lamp and the circuit, the abnormal signal is displayed in a predetermined manner to notify the user of the alarm.

FIG. 1 is a circuit diagram illustrating a general backlight driving inverter circuit, and FIG. 2 is a circuit diagram illustrating a current flow of a lamp in FIG. 1.

As shown in FIG. 1, the inverter circuit for driving a backlight converts a DC power DC supplied from a DC power supply Vin into a DC voltage of a constant level by a pulse width modulation control method. The control unit 10 to output the control signal from the control unit 10, the inverter drive unit 30 for converting the direct current into alternating current and outputting the output of the inverter drive unit 30 and transformed into a high-voltage AC power Leakage Transformer (T-1, ... Tn) outputted by outputting, and high voltage AC power output from the leakage transformer (T-1, ... Tn) to make a stable power supply to the lamp as a load It comprises a lamp (Lamp-1, ... Lamp-n) connected in series with the ballast capacitor (Ballast Capacitor, Cb-1, ..., Cb-n).

In addition, in the inverter circuit, one of the lamps Lamp-1, ... Lamp-n and one of the secondary windings of the transformers T-1, ... Tn are grounded to a common ground (Fig. Thick line of 1 (50)).

Therefore, as shown in FIG. 2, the leakage current flows through the common ground 50 of the backlight device under the influence of the leakage capacitance 70 to form a leakage current loop 90. At this time, since the current i _in drawn into the lamp Lm-n is higher than the current i _out output from the lamp L- (ie, i _in ≥ i _out ), the lamp L- There is a difference in brightness between both ends of n).

Therefore, a problem arises in that one end of the lamp (Lamp-n) is relatively fragile and shortens the life of the lamp.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an inverter circuit for driving a backlight which can reduce the stress applied to a lamp by minimizing the generation of leakage capacitance.

In order to achieve the above object, a backlight driving inverter circuit according to a first aspect of the present invention includes a driving unit for switching a control signal to generate a driving voltage and driving at least a pair of lamps;

Photocoupler means for detecting a feedback current generated by driving the lamps or an abnormal signal of the lamps; And

And a controller for generating the control signal according to the detected feedback current signal or the abnormal signal.

In order to achieve the above object, a backlight driving inverter circuit according to a second aspect of the present invention may include a driving unit configured to switch according to a control signal to generate a driving voltage and to drive at least one pair of lamps;

A first photo coupler for detecting a current flowing through the lamps driven by the driver;

A second photo coupler for detecting a lamp abnormal signal by a zener diode whose operation is determined according to whether the lamps are opened; And

The control unit outputs the control signal for controlling the current flowing through the lamps based on the lamp current detection signal received from the first photo coupler, and according to the lamp abnormal signal received from the second photo coupler. It is configured to include a control unit for generating an alarm signal,

The potential at the midpoint of the pair of lamps is characterized by being zero volts.

Therefore, according to the present invention, the occurrence of leakage capacitance can be minimized to significantly reduce the stress applied to the lamp.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

3 is a circuit diagram illustrating a backlight driving inverter circuit according to an exemplary embodiment of the present invention, and FIG. 4 is a circuit diagram illustrating a current flow of the lamp of FIG. 3.

As shown in FIG. 3, the inverter driving circuit includes a controller 100, a photo coupler 200, a driver 300, a transformer, T-1A, T-nB, and the like. ), A leakage capacitance 400, and lamps Lamp-1A, ..., Lamp-Bn.

The controller 100 converts the DC power DC supplied from the DC power supply Vin into a DC voltage having a predetermined level by using a pulse width modulation control method and outputs the DC voltage to the inverter driver 300. At this time, the control signal according to the feedback current signal and / or the abnormal signal from the lamp detected by the photo coupler means 200 is transmitted to the inverter driver 300.

The photo coupler means 200 includes at least one of a first photo coupler 210 for detecting a return current from a lamp and a second photo coupler 220 for detecting a lamp error signal when an abnormality occurs in the lamp. It includes.

The inverter driver 300 receives the DC voltage controlled by the controller 100, converts it into AC, and outputs the alternating current. Transformers T-1A,..., T-Bn are connected to the inverter driver 300. It receives the output and transforms it into high voltage AC power and outputs it.

Lamp-1A, ..., Lamp-Bn is a stable capacitor that provides the lamp as a load by making a high-voltage AC power output from the transformers T-A1, ..., T-Bn into a stable power source. It is connected in series with (Ballast Capacitor, Cb-1A, ..., Cb-nB).

The operation of the backlight driving inverter circuit of the present invention configured as described above is as follows.

In driving a lamp in a floating manner, a pair of transformers T-1A and T-1B drive a pair of lamps Lamp-1A and Lamp-1B in reverse phase in series. At this time, the center of the pair of lamps (Lamp-1A, Lamp-1B) is called the floating-common (Floating-Common, 500) in principle because of the 0V potential. The floating-common 500 has a midpoint connected to a pair of transformers T-1A and T-1B driven in an antiphase, since the voltage is 0V potential in the same manner as the pair of lamps Lamp-1A and Lamp-1B. ) In addition, the secondary circuit side of the pair of transformers T-1A and T-1B is both floating.

The feedback current detection signal and the abnormal signal required for the stabilization control circuit and the protection circuit at the time of lamp opening are respectively transmitted to the primary circuit by the first and second photo couplers 210, 220 and photo coupler.

In an application of the invention, the photo coupler means 200 comprises at least one of the first and second photo couplers 210, 220. The first photo coupler 210 senses a current returned from the pair of lamps in order to control the current provided to the pair of lamps. In addition, when an error occurs in the pair of lamps, the second photo coupler 220 detects an abnormal signal by a zener diode which operates according to whether or not an error occurs.

In other words, the lamp current is controlled via the first photo coupler 210 in the amplifier U1. In addition, the lamp current detection signal required for the protection circuit when the lamp is opened is made through the second photo coupler 220 in the zener diode ZD1 and the transistor Q1.

In addition, the loop of the leakage current 90 shown in FIG. 2 is interrupted by connecting the primary circuit and the secondary circuit to the photo coupler means 200.

Referring to FIG. 4, the leakage capacitance 400 of the backlight device is partially composed of the internal winding capacitance from the secondary windings of the transformers T-nA and T-nB. In addition, additional leakage capacitance from high voltage windings, tubes, LCD frames, and metal reflectors increases the overall amount.

Even small leakage capacitances as low as 10pF produce 0.5W leakage loss. At this time, in the case of minimizing the leakage capacitance, it is advantageous to integrate the leakage capacitance as part of an element forming a wave form.

Leakage current due to parasitic leakage capacitance effect occurs between a plurality of pairs of lamps driven in antiphase and the frame ground 700 of the backlight device, but the driving voltage polarity of adjacent lamps is opposite and the photo coupler means 200 Since it is formed, the pair of lamps are bypassed and returned as shown by reference numeral 800.

Therefore, leakage current due to the leakage capacitance 400 does not flow to the common ground 600 of the primary circuit through the frame ground 700 of the backlight device.

As described in detail above, according to the backlight driving inverter circuit of the present invention, by connecting the primary and secondary circuits by photo coupler means, the leakage current loop is interrupted, so that the high voltage side stress of the lamp is dispersed, thereby The lamp has a longer life.

In addition, since the luminance at both ends of the lamp becomes more uniform, the reliability of the backlight device and the inverter circuit is increased.

Embodiment of the present invention is only one embodiment, of course, many modifications and variations of the components of the present invention without departing from the gist of the present invention, of course, the present invention is not limited to the embodiment. .

1 is a circuit diagram showing a current detection circuit of a conventional backlight driving inverter.

FIG. 2 is a circuit diagram illustrating the flow of current in the lamp of FIG. 1.

3 is a circuit diagram illustrating a current detection circuit of a backlight driving inverter according to an embodiment of the present invention.

4 is a circuit diagram illustrating the flow of current in the lamp of FIG. 3.

<Explanation of symbols for main parts of the drawings>

100: control unit

200: photo coupler means

210: first photo coupler

220: second photo coupler

300: inverter drive unit

400: leakage capacitance

500: common ground

T-1A, T-1B, ... T-nB: Transformer

Lamp-1A, Lamp-1B, ... Lamp-nB: Lamps

Claims (7)

A driver configured to switch according to a control signal to generate a driving voltage and to drive at least one pair of lamps; Photocoupler means for detecting a feedback current generated by driving the lamps or an abnormal signal of the lamps; And And a control unit for generating the control signal in accordance with the detected feedback current signal or an abnormal signal. The circuit of claim 1, wherein the circuit is And further comprising first and second transformers respectively connected to the pair of lamps, And a potential at the midpoint of the pair of lamps is zero volts. 3. The circuit of claim 2, wherein the circuit is Inverter circuit for driving the backlight, characterized in that one side of the first transformer and the second transformer is connected to the ground. The method of claim 1, wherein the photo coupler means A first photo coupler for detecting a return current flowing from the lamps, And the controller controls the current flowing through the lamps based on a feedback current signal detected from the first photo coupler. The method of claim 4, wherein the photo coupler means, A second photo coupler for detecting an abnormal signal of the lamps; And the control unit outputs a predetermined alarm signal according to the abnormal signal detected from the second photo coupler. The method of claim 5, wherein the second photo coupler, And an abnormal signal of the lamps is detected by a zener diode whose operation is determined according to whether the lamps are open. A driver configured to switch according to a control signal to generate a driving voltage and to drive at least one pair of lamps; A first photo coupler for detecting a current flowing through the lamps driven by the driver; A second photo coupler for detecting a lamp abnormal signal by a zener diode whose operation is determined according to whether the lamps are opened; And The control unit outputs the control signal for controlling the current flowing through the lamps based on the lamp current detection signal received from the first photo coupler, and according to the lamp abnormal signal received from the second photo coupler. It is configured to include a control unit for generating an alarm signal, And a potential at the midpoint of the pair of lamps is zero volts.