KR100483051B1 - A fault detection circuit of transformer in back-light inverter for lcd panel - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a transformer malfunction detection circuit of a backlight inverter for an LCD panel in which a circuit for detecting an abnormality in a transformer portion in which two transformers are operated in pairs is implemented as a simple circuit using a latch.

According to the present invention, a driving unit 50 performs switch driving according to a dimming voltage (Vdim) and a ramp voltage, and provides a switch-off signal when a transformer malfunction detection signal is input, and the PWM unit is driven by the driving unit 50. And a secondary winding of the voltage of the primary winding by using a power switch 41 for converting the DC voltage Vin into a square wave voltage and a voltage converted from the square wave voltage from the power switch 41 by a predetermined signal. In a transformer malfunction detection circuit applied to a backlight panel inverter for an LCD panel including a transformer section 44 having a pair of transformers T1 and T2 each stepped up, the two pairs of transformers T1 and T2 An input voltage detector 61 detecting a voltage VA of the midpoint A of the secondary winding; A latch unit 62 which maintains and outputs a voltage level indicating a trans malfunction when the voltage VB output by the voltage detection of the input voltage detector 61 is equal to or greater than a preset voltage; And an output switching unit for switching in accordance with the voltage level of the latch unit 62 and outputting a trans malfunction detection signal to the driving unit.

According to the present invention, it is easy to integrate into an application specific integrated circuit (ASIC), more accurate operation is possible, there is an effect that can improve the quality and competitiveness

Description

Transformer malfunction detection circuit of backlight inverter for LCD panel {A FAULT DETECTION CIRCUIT OF TRANSFORMER IN BACK-LIGHT INVERTER FOR LCD PANEL}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a backlight inverter for a thin film transistor liquid crystal display (TFT-LCD) panel, and in particular, a circuit for detecting an abnormality in a transformer unit in which two transformers are operated in pairs using a latch. The present invention relates to a transformer malfunction detection circuit of a backlight inverter for an LCD panel that can be easily integrated into an application specific integrated circuit (ASIC), enables more accurate operation, and improves quality and competitiveness. .

In general, cold cathode fluorescent lamps (CCFLs) operate at low current and utilize the advantages of low power consumption, low heat generation, high brightness, and long life, such as in the back of computer monitors such as TFT-LCDs. It is used for various display devices, such as a back light and the screen display of a copying machine. In order to light up the cold cathode fluorescent lamp, a high AC voltage of 1KV-2KV is required, and an inverter is used to provide such a high AC voltage.

1 is a configuration diagram of a backlight inverter for a general LCD panel.

Referring to FIG. 1, a backlight inverter for a general LCD panel includes a power switch 11 for converting an arbitrary DC voltage Vin within a range of about 5-30V into a square wave voltage according to a PWM driving signal, and the power switch. A signal conversion section 12 for half-wave rectifying the output voltage of (11), and a transformer driving section for converting the output voltage of the signal conversion section 12 into an alternating current (AC) voltage having a preset frequency (for example, 80 KHz). A transformer section 14 having a pair of transformers T1 and T2 for boosting the AC voltage of the transformer driver 13 to a voltage of about 1-2 KV necessary for a ramp operation; and the transformer section And a lamp unit 15 having a pair of lamps Lamp1 and Lamp2 connected to respective transformers T1 and T2 of 14 to be turned on and off.

In addition, the backlight inverter for the LCD panel may include a lamp voltage detector 16 that detects a lamp voltage corresponding to a current flowing in the lamp unit 15, and an overvoltage detector that detects an output voltage of the signal converter 12. 17) a voltage selector 18 for selecting a large voltage among the detected voltage of the overvoltage detector 17 and the detected voltage of the ramp voltage detector 16, and the output voltage of the signal converter 12; A reference signal generator 19 for generating a voltage, a dimming voltage Vdim by external brightness control, a reference voltage from the reference signal generator 19, and a voltage selected by the voltage selector 18. And a driver 20 for providing a PWM driving signal to the power switch 11.

In the backlight inverter for LCD panels, when the lamps are incompletely connected due to poor connection around the transformer, a corona phenomenon occurs in which the spark discharge by a high voltage is instantaneously generated in the transformer itself. There was a disadvantage in that there is a risk of fire, and in order to solve this disadvantage, a backlight inverter for an LCD panel has been proposed as shown in FIG. 2.

2 is a circuit diagram of a backlight inverter for a conventional LCD panel.

Referring to FIG. 2, in FIG. 2, the same reference numeral is used for a configuration that performs substantially the same function as the configuration illustrated in FIG. 1, and a description of the same configuration will be omitted.

In FIG. 2, the transformer malfunction detection circuit 30 of the backlight inverter for a conventional LCD panel includes the voltage VA of the midpoint A of the secondary winding of the pair of transformers T1 and T2 of the transformer unit 14. And a malfunction of the transformer part according to the voltage VA, which is the voltage VA of the midpoint A of the secondary winding of the pair of transformers T1 and T2 of the transformer part 14. A first voltage detector 31 for detecting a voltage, a first comparator CMP1 for comparing the voltage VB outputted by the voltage detection of the voltage detector 31 with the first reference voltage VR1, and the first comparator The second voltage detector 32 that detects the output voltage of the first comparator CMP1, the transistor Q1 that is turned on / off by the voltage detected by the second voltage detector 32, and the transistor Q1. The second comparator CMP2 which provides the transformer malfunction detection signal VC to the driver 20 by comparing the voltage of the collector terminal of It should. Accordingly, the driver 20 stops the operation by outputting an off signal to the power switch 11 after a delay time set therein according to the malfunction detection signal of the transformer malfunction detection circuit 30.

3 is a timing chart of the main signal of FIG. 2.

Referring to FIG. 3, the voltage VA of the midpoint A of the secondary windings of the pair of transformers T1 and T2 of the transformer unit 14 is almost zero ("0") at the time of normal transformer. However, when the transformer malfunctions, the voltage appears as a constant voltage as shown in FIG. 3, wherein the output voltage VB (approximately, about 4V) of the first voltage detector 19A of the transformer malfunction detection circuit 19 is approximately. Since the voltage is greater than the first reference voltage VR1 of about 2V, the output voltage of the first comparator CMP1 becomes a high level, and this high level is detected by the second voltage detector 32 to turn on the transistor Q1. Accordingly, the collector voltage of the transistor Q1 becomes low level so that the first comparator COMP1 transmits the high voltage transformer malfunction detection signal VC by the second reference voltage VR2 connected to the non-inverting terminal. Output to 20. Accordingly, the driver 20 stops the operation by outputting an off signal to the power switch 11 after a delay time set therein according to the malfunction detection signal of the transformer malfunction detection circuit 30.

However, if the voltage VA is intermittently shown as a normal voltage during the delay time from the first detection of the transformer malfunction, the time delay is started again and the operation stop is made later than the preset time. The delay time is unnecessarily long, thereby causing a corona phenomenon in which a spark discharge by a momentarily high voltage is generated in the transformer itself. In this case, there is still a problem in that there is a danger of fire.

In addition, the conventional transformer malfunction detection circuit includes two first and second comparators. Since the first and second comparators are composed of a complex circuit composed of a plurality of transistors, resistors, and capacitors, the implementation of an application specific integrated circuit is realized. There was a problem with this complexity.

The present invention has been proposed to solve the above problems, and its object is to implement a circuit for detecting an abnormality of a transformer unit in which two transformers are operated in pairs using a latch as a concise circuit. It is to provide a transformer malfunction detection circuit of a backlight inverter for LCD panels that can be easily integrated into an application specific integrated circuit, which enables more accurate operation, and improves quality and competitiveness.

In order to achieve the above object of the present invention, the transformer malfunction detection circuit of the backlight inverter for LCD panel of the present invention

A driving unit performs switch driving according to the dimming voltage (Vdim) and the lamp voltage by the PWM method, and provides a switch-off signal when the transformer malfunction detection signal is input. LCD panel including a power switch for converting to a voltage and a transformer having a pair of transformers respectively boosting the voltage of the primary winding to the secondary winding by using a signal signal converted from a square wave voltage from the power switch. In the transformer malfunction detection circuit applied to the backlight backlight inverter,

An input voltage detector detecting a voltage at an intermediate point A of the secondary winding of the pair of transformers;

A latch unit which maintains and outputs a voltage level indicating a transformer malfunction when the voltage output by the voltage detection of the input voltage detector is equal to or greater than a preset voltage; And

An output switching unit which switches according to the voltage level of the latch unit and outputs a transformer malfunction detection signal to the driving unit

Characterized in having a.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

4 is a configuration diagram of a backlight inverter for an LCD panel according to the present invention.

In FIG. 4, descriptions of components that perform substantially the same functions as those illustrated in FIG. 2 will be omitted. Here, 41 to 49 of FIG. 4 correspond to 11 to 19 of FIG. 2.

Briefly focusing on the configuration directly related to the transformer malfunction detection circuit 60 according to the present invention, a backlight inverter for an LCD panel to which the present invention is applied is driven by a PWM method according to a dimming voltage (Vdim) and a lamp voltage. A driving unit 50 for providing a switch-off signal when the transformer malfunction detection signal is input, and a power switch 41 for operating a PWM method by the driving unit 50 to convert the DC voltage Vin into a square wave voltage. And a transformer section 44 having a pair of transformers T1 and T2 for respectively boosting the voltage of the primary winding to the secondary winding by using a predetermined signal-converted voltage from the square wave voltage from the power switch 41. ).

In particular, the LCD panel backlight inverter of the present invention detects a transformer malfunction based on the secondary winding midpoint A voltage VA of the transformer unit 44 and outputs a transformer malfunction detection signal. 60).

In addition, the driving unit 50 according to the dimming voltage (Vdim) by the external brightness control, the voltage selected by the voltage selector 18, the power switch 41 according to the reference signal from the reference signal generator 49 ) Provides a PWM driving signal, and outputs an off signal to the power switch 11 in accordance with a trans malfunction detection signal from the trans malfunction detection circuit 60. Here, the driving unit 50 of FIG. 4 corresponds to the driving unit 20 of FIG. 2.

The transformer malfunction detection circuit 60 includes an input voltage detector 61 for detecting a voltage VA of an intermediate point A of the secondary windings of the pair of transformers T1 and T2, and the input voltage detector ( When the voltage VB output by the voltage detection of 61 is equal to or greater than a preset voltage, the latch 62 maintains and outputs a voltage level indicating a trans malfunction, and the voltage level of the latch 62 is maintained. According to the switching operation includes an output switching unit 63 for outputting a transformer malfunction detection signal to the drive unit (50).

The input voltage detector 61 includes series resistors R11 and R12 connected in series to ground at an intermediate point A of the secondary windings of the pair of transformers T1 and T2, and the series resistors R11 and R12. A diode D11 having an anode terminal connected to a connection point of the same) and a capacitor connected to ground at the cathode terminal of the diode D11.

The latch unit 62 includes series resistors R13 and R14 sequentially connected to an output terminal of the input voltage detector 61, a ground resistor R15 connected to ground at the series resistors R13 and R14, and A first NPN transistor Q11 having a base end connected to a ground resistor R15, a grounded emitter end, and a collector end connected to an operating voltage Vcc terminal through a resistor R16; and the first transistor Q11. The resistor R17 is connected to a base terminal connected to the collector terminal of the terminal, an emitter terminal connected to the operating voltage Vcc, connected to the base terminal via a resistor R16, and a connection point of the series resistors R13 and R14. A second PNP transistor (Q12) having a collector terminal connected through it is formed, and the connection point of the series resistors (R13, R14) is used as an output terminal. In addition, the latch unit 62 may further include a capacitor C12 connected to ground at a connection point of the series resistors R13 and R14.

The output switching unit 63 includes a third terminal having a base terminal connected to the output terminal of the latch unit 62 through voltage division resistors R18 and R19, a grounded emitter terminal, and a collector terminal connected to the driving unit 50. NPN transistor Q13.

5 is a timing chart of the main signal of FIG. 4.

In Fig. 5, "VA" is the voltage VA of the secondary winding midpoint A of the transformer section including the pair of transformers T1 and T2, and "VB" is the output of the input voltage detector 61. Is the voltage, and "VC" is the output voltage of the output switching unit 63. "DT" is an operation stop delay time by the driving unit 50, and "VLamp" is a detection voltage of the lamp unit 45 detected by the lamp voltage detection unit 46.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 4, in the backlight inverter for LCD panels of the present invention, the power switch 41 converts a DC voltage Vin in a range of about 5-30V into a square wave voltage according to an input PWM driving signal, which is a square wave voltage. Is half-wave rectified by the signal converter 42 and input to the transformer driver 43. At this time, the transformer driver 43 converts the output voltage of the signal converter 42 into an alternating voltage having a frequency of about 80 KHz, and supplies the transformer voltage to the transformers T1 and T2 of the transformer 44. The pair of transformers T1 and T2 of the transformer unit 44 boost the AC voltage of the transformer driving unit 43 to a voltage of about 1-2 KV necessary for lamp operation and supply the same to the lamp unit 45. Then, the pair of lamps Lamp1 and Lamp2 of the lamp unit 45 are turned on.

During the operation of the lamp unit 45 through this process, the lamp voltage detector 46 detects the lamp voltage corresponding to the current flowing through the lamp unit 45 by the backlight inverter for the LCD panel, and the overvoltage detector 47 ) Detects the output voltage of the signal converter 42, and at this time, the voltage selector 48 selects a larger voltage between the detected voltage of the overvoltage detector 47 and the detected voltage of the ramp voltage detector 46. To provide a drive unit (50). The reference signal generator 49 generates a reference voltage from the output voltage of the signal converter 42 and provides the reference voltage to the driver 50. The driver 50 may be configured according to a dimming voltage Vdim by external brightness control, a reference voltage from the reference signal generator 49, and a voltage selected by the voltage selector 48. It provides PWM drive signal to control the driving of lamp by PWM method.

Meanwhile, the driving unit 50 including the operation stop unit 54, the dimming control unit 51, the comparators 52 and 53, and the output driving unit 56 is a Korean patent application number filed by the same inventor and the same applicant. Since it is described in detail in 2003-33970 (filed May 28, 2003), a detailed description thereof will be omitted.

As described above, while the lamp unit is operating, the transformer malfunction detection circuit 60 of the present invention monitors whether the transformer unit is malfunctioning, and outputs a transformer malfunction detection signal to the drive unit 50 when the transformer malfunction is detected. The driving unit 50 causes the power switch to be turned off to stop the operation when detecting the transformer malfunction. The trans malfunction detection operation will be described in detail as follows.

4, first, the input voltage detector 61 of the transformer malfunction detection circuit 60 of the backlight inverter for LCD panels according to the present invention is the middle of the secondary windings of the pair of transformers T1 and T2. The voltage VA at the point A is detected and rectified.

More specifically, the voltage VA of the midpoint A of the secondary windings of the pair of transformers T1 and T2 is preset by the series resistors R11 and R12 of the input voltage detector 61. Divided by the resistance ratio R12 / (R11 + R12), this divided voltage is rectified by the diode D11 and then smoothed by the capacitor C11 to be provided to the latch portion 62. Here, the voltage VA is almost zero ("0") at the normal state of the transformer as shown in FIG. 5, and is substantially FIR 0.5 V or less, but appears at approximately 4 V or more when the transformer malfunctions. When malfunctioning, the voltage VB output from the input voltage detector 61 becomes 2.3V or more, as shown in FIG. 5.

In addition, the latch unit 62 of the present invention maintains and outputs a voltage level indicating a transformer malfunction when the voltage VB output by the voltage detection of the input voltage detector 61 is equal to or greater than a preset voltage. This will be described in more detail.

The output voltage VB of the input voltage detector 61 has a predetermined magnitude at a predetermined resistance ratio between the sum resistors R13 + R14 of the series resistors R13 and R14 of the latch unit 62 and the ground resistor R15. The first NPN transistor Q11 is switched on / off by dividing and detecting the voltage by the divided detection voltage (voltage between both ends of the R15). As a simple example, the sum resistor R13 + R14 and the ground resistance ( When the resistance ratio to R15 is 1: 1, when the voltage VB of the input voltage detector 61 is 2V during a transformer malfunction, the voltage at both ends of the ground resistor R15 is approximately "0.7V". The first NPN transistor Q11 is turned on to detect a transformer malfunction.

As described above, when the first NPN transistor Q11 is switched on due to a transformer malfunction, the second PNP transistor Q12 interlocked with the first NPN transistor Q11 is turned on. Accordingly, the second PNP transistor is connected to the series resistors R13 and R14. The current flows through the operating voltage Vcc through Q12, and the voltage caused by the current keeps the first NPN transistor Q11 in the on state. When a voltage indicating one trans malfunction is detected as described above, the first NPN transistor Q11 and the two PNP transistors Q12 are kept in an on state, and the latch unit 62 outputs a high level. That is, once the malfunction of the transformer is detected once, the malfunction detection state is maintained regardless of the state of the subsequent detection voltage.

Therefore, during a transformer malfunction, the output level of the latch unit 62 becomes high level, and the third NPN transistor Q13 of the output switching unit 63 of the present invention is driven according to the high level of the latch unit 62. Since the switching is on, the transformer malfunction detection signal VC as shown in FIG. 5 is output to the driver 50 through the third NPN transistor Q13.

Accordingly, the operation stop control unit 54 of the driving unit 50 delays the off signal to the power switch 41 after a delay by a predetermined delay time DT as shown in FIG. 5 by the capacitor CD. In this case, the lamp voltage VLamp detected by the lamp voltage detector 46 is set to the off state so that the operating voltage is not detected. According to the present invention as described above, the operation is normally stopped after a preset delay time.

According to the present invention as described above, by implementing a circuit that detects the abnormality of the transformer section in which two transformers are operated in pairs using a latch, a built-in application-specific integrated circuit (ASIC) is implemented. Easier and more accurate operation is possible and has the effect of improving quality and competitiveness.

Since the above description is only a description of specific embodiments of the present invention, the present invention is not limited to these specific embodiments, and various changes and modifications of the configuration are possible from the above-described specific embodiments of the present invention. It will be apparent to those skilled in the art to which the present invention pertains.

1 is a configuration diagram of a backlight inverter for a general LCD panel.

2 is a circuit diagram of a backlight inverter for a conventional LCD panel.

3 is a timing chart of the main signal of FIG. 2.

4 is a configuration diagram of a backlight inverter for an LCD panel according to the present invention.

5 is a timing chart of the main signal of FIG. 4.

Explanation of symbols on the main parts of the drawings

41: power switch 42: signal conversion unit

43: transformer drive section 44: transformer section

45 lamp portion 46 lamp voltage detection unit

47: overvoltage detector 48: voltage selector 48

49: reference signal generator 50: driver

60: transformer malfunction detection circuit 61: input voltage detector

62: latch portion 62 63: output switching portion

Claims (5)

The driving unit 50 performs switch driving according to the dimming voltage Vdim and the ramp voltage, and provides a switch-off signal when the transformer malfunction detection signal is input. The voltage of the primary winding is boosted to the secondary winding using the power switch 41 for converting the voltage Vin into the square wave voltage and the voltage converted from the square wave voltage from the power switch 41 by a predetermined signal. In the transformer malfunction detection circuit applied to a backlight inverter for an LCD panel comprising a transformer section 44 having a pair of transformers T1 and T2, An input voltage detector 61 detecting a voltage VA of an intermediate point A of each secondary winding of the pair of transformers T1 and T2; A latch unit 62 which maintains and outputs a voltage level indicating a trans malfunction when the voltage VB output by the voltage detection of the input voltage detector 61 is equal to or greater than a preset voltage; And An output switching unit 63 for switching according to the voltage level of the latch unit 62 and outputting a transformer malfunction detection signal to the driving unit 50, A transformer malfunction detection circuit of a backlight inverter for an LCD panel, characterized in that the inverter is switched off when the transformer malfunction is detected. The method of claim 1, wherein the input voltage detector 61 Series resistors R11 and R12 connected in series to ground at an intermediate point A of the secondary windings of the pair of transformers T1 and T2; A diode D11 having an anode terminal connected to a connection point of the series resistors R11 and R12; And Capacitor C11 connected to ground at the cathode end of diode D11 Trans malfunction detection circuit of the backlight inverter for LCD panel, characterized in that consisting of. The method of claim 1, wherein the latch portion 62 Series resistors R13 and R14 sequentially connected to an output terminal of the input voltage detector 61; A ground resistor (R15) connected to ground at the series resistors (R13, R14); A first NPN transistor Q11 having a base terminal connected to the ground resistor R15, a grounded emitter terminal, and a collector terminal connected to an operating voltage Vcc terminal through a resistor R16; A base terminal connected to the collector terminal of the first transistor Q11, an emitter terminal connected to the operating voltage Vcc, and connected to the base terminal via a resistor R16, and the series resistors R13 and R14. A second PNP transistor Q12 having a collector end connected to the connection point via a resistor R17, A transformer malfunction detection circuit for a backlight inverter for an LCD panel, characterized in that the connection point of the series resistors (R13, R14) is used as an output terminal. The method of claim 3, wherein the latch portion 62 And a capacitor (C12) connected to ground at a connection point of the series resistors (R13, R14). The method of claim 1, wherein the output switching unit 63 A third NPN transistor Q13 having a base terminal connected to the output terminal of the latch unit 62 through voltage division resistors R18 and R19, a grounded emitter terminal, and a collector terminal connected to the driving unit 50; A transformer malfunction detection circuit for a backlight inverter for an LCD panel.