KR20030090023A - Back light converter for LCD - Google Patents

Abstract

PURPOSE: A backlight converter of a liquid crystal display device is provided to generate a dead-time in FET drive signals for restraining the heating of FET elements which drives a voltage raising part, when applying full-bridge in the realizing a single stage type backlight inverter. CONSTITUTION: A backlight converter of a liquid crystal display device includes switches(FET1,FET2) turned on/off according to switching control signals to apply a driving power(Vcc) to a primary coil of a transformer. An error amplifier(ERR1) compares a feedback signal(F/B) input to an inversion terminal with a reference voltage input to a non-inversion terminal(+). A time difference generator(21) receives a pyramidal wave having a certain cycle, an output signal of ERR1, and the driving power and generates clock signals having the same cycle but different rising and falling edge times even though having the same cycle. A driving part(22) controls the switches not to be turned on simultaneously.

Description

LCD backlight converter {Back light converter for LCD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a single stage LCD backlight inverter. In particular, when a full-bridge method is to be applied, a heat generation phenomenon generated in a FET which is a switching element for driving a conversion unit for a voltage rise. The present invention relates to an LCD backlight inverter configured to generate dead-time in a FET drive signal to suppress it.

In general, a single stage type can drive a lamp used as a backlight by driving a FET, and there are full-bridge and half-bridge methods.

Among them, the half bridge method adopts the full bridge method because the production cost increases due to the payment of technology loyalty when the product is produced by adopting the half bridge method due to the proposal of many prior arts and the monopoly. It is true.

Referring to FIG. 1 attached to the configuration of the LCD backlight inverter circuit applying the typical full bridge method used up to now, reference numeral 10 denotes a DC / AC converter that performs the transformation in the circuit, the driving power supply (Vcc) and the converter Between (10) is provided a switch (not shown) consisting of FET elements for determining the power supply, the on / off control of the switch is made by the output signal of the drive unit 20.

The driver 20 controls the driving of the DC / AC converter 10 referred to by reference numeral 10 to change the DC power to AC power.

In addition, a power source that is transformed into an AC high voltage according to the operation of the DC / AC converter 10 is applied to a lamp of a rear stage, so that a lamp of a rear stage is made to emit light. The power supply via is inputted to the inverting (-) terminal of the error amplifier ERR1 constituting the detection signal determination unit 40 referred to as a feedback signal referred to by reference number F / B.

The error amplifier ERR1 compares the feedback signal F / B input to the inverting (-) terminal and the reference voltage input to the non-inverting (+) terminal and transmits the result to the driving unit 20 according to a comparison result. Will be delivered.

Undefined symbols R1 and R2 are voltage divider resistors for overvoltage sensing, and Comp1 is a comparator for overvoltage judgment.

Since the driving unit 20 generates only a switching signal for driving the switching element of the DC / AC converter 10 during the operation of the configuration, since only the triangular wave and the output signal of the error amplifier ERR1 are used. In some cases, all of the switches for applying the driving voltage of the driving unit 20 are turned on.

In this case, when all the FETs, which are the switching elements, are turned on, overheating occurs in the two FETs, which ultimately lead to damage of the FET applied as the switching element, resulting in deterioration of reliability and safety of the product. do.

This problem is a burden on producers in recent years when the manufacturer's responsibilities are reinforced.

An object of the present invention for solving the above problems relates to an LCD backlight inverter of a single stage (Single Stage) type, in particular, to drive the conversion unit for the voltage rise when applying a full-bridge (Full-Bridge) method The present invention provides an LCD backlight inverter that generates dead-time in a FET drive signal in order to suppress a heat generation phenomenon generated in a FET which is a switching device.

1 is a diagram showing a configuration of an overvoltage protection circuit according to the prior art.

2 is an exemplary configuration diagram of an LCD backlight inverter according to the present invention.

3 is an exemplary waveform diagram of the main part of FIG.

4 is an exemplary measurement waveform diagram corresponding to FIG. 3.

A feature of the present invention for achieving the above object is provided with a plurality of LCD backlight lamps connected to the secondary side of the transformer for receiving the input DC drive power input to the primary side and outputting the AC high voltage to the secondary side; An LCD backlight converter comprising: switching means for varying a current flowing on a primary side of the transformer by forming and closing a current flow path on a primary side of the transformer based on an input control signal; A feedback signal determination unit which receives a feedback signal for sensing the magnitude of the voltage according to the on / open state of the backlight lamp and compares it with a reference signal to output a comparison value; Parallax generating means for generating and outputting a heterogeneous clock signal having a same period but having a rising edge time and a falling edge time by receiving an output signal of the triangular wave having a predetermined period, the feedback signal determining unit, and the driving power; And switching control means for receiving a different clock signal output from the parallax generating means and generating a control signal for driving the switching means to control a switching operation so that the switching elements in the switching means do not simultaneously turn on. There is.

An additional feature of the present invention for achieving the above object is that the parallax generating means comprises: a resistor connected to an input terminal of an arbitrary reference voltage and an output terminal of the feedback signal determination unit; A capacitor connected between the output terminal of the feedback signal determining unit and a ground terminal; A first comparator for inputting a voltage applied to the capacitor to a non-inverting data input terminal and comparing the triangular wave input to the inverting data input terminal and outputting a comparison value; A second comparator for inputting a voltage applied to the capacitor to a non-inverting data input terminal and comparing the voltage to the triangular wave input to the inverting data input terminal and outputting a comparison value; And a variable resistor connected between the output terminal of the first comparator and the non-inverting data input terminal to return the output signal of the first comparator to the non-inverting data input terminal.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an exemplary configuration diagram of the LCD backlight inverter according to the present invention showing only the configuration of the main part related to the present invention. Looking at the configuration and operation, the turn-on / turn-off operation by the input switching control signal to the transformer of the rear stage There are switches FET1 and FET2 for forming a conduction path for current at a constant cycle in the primary coil (not given a reference number) so that the driving power source Vcc is applied to the primary coil of the transformer.

In addition, the transformer operates according to the on / off operation of the switches FET1 and FET2, and the power that is transformed into an AC high voltage is applied to a lamp of a rear stage, whereby a lamp of the rear stage emits light. The power supply via the lamp is input to the inverting (-) terminal of the error amplifier ERR1 as a feedback signal referred to by reference number F / B.

The error amplifier ERR1 compares the feedback signal F / B input to the inverting (-) terminal and the reference voltage input to the non-inverting (+) terminal and refers to the result according to the comparison result. The parallax generator is provided.

The parallax generator 21 is connected between a resistor Ra connected to an input terminal of an arbitrary reference voltage Vref and an output terminal of the error amplifier ERR1, and an output terminal of the error amplifier ERR1 and a ground terminal. A second comparator Comp2 for inputting the capacitor C2 and the voltage applied to the capacitor C2 to a non-inverting data input terminal, and comparing the result with a triangular wave input to the inverting data input terminal; A third comparator Comp3 for comparing the voltage applied to C2) to the non-inverting data input terminal and comparing the voltage with the triangular wave input to the inverting data input terminal, and outputting a comparison value, and an output terminal and the non-inverting data input terminal of the second comparator Comp2; And a variable resistor VR connected between the feedback signals of the second comparator Comp2 to the non-inverting data input terminal.

Subsequently, the driving unit, which is referred to by reference numeral 22 based on the output signals of the second comparator Comp2 and the third comparator Comp3, controls on / off the switching elements referred to by reference numerals FET1 and FET2 provided at a rear end thereof. Done.

Referring to FIG. 3 to which the operation of the parallax generator 21 is briefly described, a triangular wave generated by an oscillator (not shown) is represented by a thick solid line in FIG. 3.

At this time, the output signal of the error amplifier ERR1 referred to by reference numeral (a) is a feedback signal referred to by reference number F / B, and the signal level of the output signal of the error amplifier ERR1 by this signal is shown in FIG. Assume that it is as shown.

A third comparator comp3 that outputs the output signal of the error amplifier ERR1 referred to by reference number (a) to the non-inverting data input terminal and compares the result with a triangular wave input to the inverting data input terminal based on the output signal; ) Is the same as referred to by reference numeral (b).

In addition, the output signal of the second comparator Comp2 that receives the output signal of the error amplifier ERR1 into the non-inverting data input terminal and compares the result with the triangular wave inputted to the inverting data input terminal based on the output signal is the second comparator Comp2. When the resistance value of the variable resistor VR connected to the output terminal of the comparator Comp2 and the non-inverting data input terminal changes, the time constant due to the resistance value of the variable resistor VR and the capacitance component of the capacitor C2 changes. The actual output signal is delayed and output. At this time, the resistance value of the variable resistor VR can be arbitrarily adjusted by the designer.

Accordingly, the output signal of the second comparator Comp2 is referred to by reference numeral (c).

Therefore, a delay time is generated between the signals referred to as (c) and (d), so that the driving unit referred to as reference number 22 turns on the switching elements referred to as reference numerals FET1 and FET2 provided at the rear end. When controlling the on / off, two FETs can be controlled so as not to be operated simultaneously.

An example of an actual measurement waveform of a waveform referred to by reference numerals (b) and (c) in FIG. 3 is as shown in FIG. 4.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

When providing an LCD backlight inverter according to the present invention as described above, by generating a dead-time in the FET drive signal (Drive Signal) to implement a conventional single stage LCD backlight inverter In this case, if the full bridge method is applied, the heat generation phenomenon of the FET device in question can be suppressed.

Claims (2)

In an LCD backlight converter having a plurality of LCD backlight lamps connected to a secondary side of a transformer that receives an input DC driving power input to a primary side and outputs an AC high voltage to a secondary side: Switching means for varying the current flowing in the primary side of the transformer by forming and closing a current flow path on the primary side of the transformer based on an input control signal; A feedback signal determination unit which receives a feedback signal for sensing the magnitude of the voltage according to the on / open state of the backlight lamp and compares it with a reference signal to output a comparison value; Parallax generating means for generating and outputting a heterogeneous clock signal having a same period but having a rising edge time and a falling edge time by receiving an output signal of the triangular wave having a predetermined period, the feedback signal determining unit, and the driving power; And And a switching control means for controlling a switching operation by generating a control signal for driving the switching means by receiving different clock signals output from the parallax generating means to control the switching elements in the switching means not to be simultaneously operated. LCD backlight converter, characterized in that. The method of claim 1, The parallax generating means includes a resistor connected to an input terminal of an arbitrary reference voltage and an output terminal of the feedback signal determining unit; A capacitor connected between the output terminal of the feedback signal determining unit and a ground terminal; A first comparator for inputting a voltage applied to the capacitor to a non-inverting data input terminal and comparing the triangular wave input to the inverting data input terminal and outputting a comparison value; A second comparator for inputting a voltage applied to the capacitor to a non-inverting data input terminal and comparing the voltage to the triangular wave input to the inverting data input terminal and outputting a comparison value; And And a variable resistor connected between the output terminal of the first comparator and the non-inverting data input terminal to return the output signal of the first comparator to the non-inverting data input terminal.