KR20040045959A - Back light inverter with improved shutdown stabilization function - Google Patents

Abstract

PURPOSE: A backlight inverter is provided to shut down the inverter in accordance with the control signal applied from an external source and maintain an output driving unit at a shutdown state in a stable way. CONSTITUTION: A backlight inverter comprises a driving switch(21) for switching a voltage(Vcc) in accordance with a PWM driving signal; a first signal converter(22) for converting the square wave voltage output from the driving switch into a sine wave voltage; a second signal converter(23) for converting the square wave voltage output from the first signal converter into a chopping wave voltage; a transforming and driving unit(24) for converting the square wave voltage output from the first signal converter into a lamp driving voltage, and providing the converted voltage to a lamp(LA); a feedback circuit unit(25) for detecting the driving voltage flowing at the lamp; an error detection unit(26) for detecting the difference voltage between the voltage detected by the feedback circuit unit and a reference voltage; a comparing unit(27) for comparing the reference chopping wave voltage output from the second signal converter with the difference voltage detected by the error detection unit; an output driving unit(28) for adjusting the duty ratio of the PWM driving signal in accordance with the output of the comparing unit, and providing the PWM driving signal to the driving switch; a shutdown detection unit(29) connected in parallel to the feedback circuit unit, and which detects shutdown of the lamp and outputs a shutdown protection signal(SDP1); and an enhanced shutdown protection control unit(E-SDPC) for providing a shutdown signal(SSD) to the output driving unit when the shutdown protection signal is applied from the shutdown detection unit or a shutdown signal(Ex-Sy) is applied from an external source.

Description

BACK LIGHT INVERTER WITH IMPROVED SHUTDOWN STABILIZATION FUNCTION}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inverter used for driving a TFT-LCD backlight and the like. In particular, the inverter can be shut down by an external control signal, and thus the inverter can be shut down externally as well as an abnormality of the output unit. In addition, the present invention relates to a backlight inverter having an improved shutdown stabilization function that enables the output driver to be kept in a more stable shutdown state.

In general, an inverter used for driving a backlight for a TFT-LCD (Thin Film Transistor-Liquid Crystal Display) panel converts direct current (DC) power into alternating current (AC) power. This is a device that supplies the driving power required for the lamp included in the backlight, and in this inverter, feedback control for controlling the set brightness is used. In this feedback control, PWM (Pulse Width Modulation) is used to control the brightness. Pulse width modulation) may be applied.

FIG. 1 is a conventional backlight inverter circuit diagram. Referring to FIG. 1, a conventional inverter circuit is a circuit for providing a driving power source of a lamp by switching an input voltage on / off, which converts an input voltage Vcc into a PWM driving signal. Drive switch 11 for switching on / off, a first signal converter 12 for converting a square wave output from the drive switch 11 into a square wave, and an output signal of the first signal converter 12. And a transformer for converting and boosting the driving power of each lamp according to the square wave of the first signal converter 12 and the supplied signal to the corresponding lamp LA according to the square wave of the first signal converter 12 and The drive unit 14 is included.

In addition, the conventional backlight inverter circuit includes a feedback circuit unit 15 for detecting a driving voltage flowing through the lamp LA, and an error detection unit 16 for detecting a difference voltage between the voltage detected by the feedback circuit unit 15 and a reference voltage. ), A comparator 17 for comparing the reference triangular wave voltage by the second signal converter 13 and the difference voltage by the error detector 16, and PWM driving according to the output of the comparator 17 And an output driver 18 for supplying a signal to the drive switch 11.

In addition, the conventional inverter circuit is connected to the feedback circuit unit 15 in parallel to detect a shutdown to output a shutdown protection signal (SDP1), and the shutdown protection signal of the shutdown detection unit 19 ( Shut Down Protection Control (SDPC) for providing a shutdown signal (SSD) to the output driver 18 when the SDP1) input.

In this case, when the shutdown signal SSD is input from the shutdown protection controller SDPC, the output driver 18 outputs a predetermined stop signal (for example, a high level) instead of outputting a PWM drive signal. By keeping the drive switch off, the operation of the inverter circuit is stopped.

However, in such a conventional inverter circuit, the inverter circuit can be shut down in an internal shutdown state. In other words, shutdown is possible by the shutdown protection signal SDP applied to the inverter circuit through the output unit. However, in the conventional inverter, there is a problem in that the user cannot forcibly shut down externally if desired. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a backlight inverter with an improved shutdown stabilization function that allows the inverter to be shut down by an external control signal.

In addition, another object of the present invention is to provide a backlight inverter with an improved shutdown stabilization function that can shut down the inverter arbitrarily as well as the output unit in addition to the abnormality of the output unit, and keep the output driver in a more stable shutdown state. have.

1 is a conventional backlight inverter circuit diagram.

2 is a backlight inverter circuit diagram according to the present invention.

3 is a circuit diagram of the enhanced shutdown protection controller of FIG. 2.

Explanation of symbols on the main parts of the drawings

21: drive switch 22: first signal conversion unit

23: second signal converter 24: transformer and driver

25: feedback circuit section 26: error detection section

27: comparison unit 28: output driver

29: shutdown detector

E-SDPC: Enhanced Shutdown Protection Controls

As a technical means for achieving the above object of the present invention, a feature of the present invention is a drive switch for switching the voltage on / off according to the PWM drive signal; A first signal converter converting a square wave voltage output from the driving switch into a square wave voltage; a second signal converter converting a square wave voltage of the first signal converter into a triangular wave voltage; A transformer and a driver to convert the square wave voltage of the first signal converter into a driving power of the lamp and to supply the lamp to the lamp; A feedback circuit unit for detecting a driving voltage flowing through the lamp; An error detector for detecting a difference voltage between the detection voltage by the feedback circuit unit and a preset reference voltage; A comparison unit comparing the reference triangular wave voltage by the second signal conversion unit with the difference voltage by the error detection unit; An output driver adjusting the duty ratio of the PWM driving signal according to the output of the comparing unit and supplying the duty ratio to the driving switch; A shutdown detection unit connected in parallel to the feedback circuit unit to detect shutdown of the lamp and output a shutdown protection signal; And an enhanced shutdown protection control unit configured to provide a shutdown signal to the output driver when the shutdown protection signal or the shutdown signal is input from the shutdown detection unit.

Hereinafter, with reference to the accompanying drawings, the configuration and operation of the backlight inverter with improved shutdown stabilization function according to the present invention will be described in detail. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

FIG. 2 is a circuit diagram illustrating a backlight inverter according to the present invention. The backlight inverter having an improved shutdown stabilization function according to the present invention includes a driving switch 21 for switching voltage Vcc on / off according to a PWM driving signal, and the driving switch. A first signal converter 22 for converting the square wave voltage output from the signal 21 into a square wave voltage, and a second signal converter for converting the square wave voltage of the first signal converter 22 into a triangle wave voltage ( 23) and a transformer and driver 24 for converting the square wave voltage of the first signal converter 22 into a driving power of the lamp and supplying the lamp to the lamp LA.

The backlight inverter of the present invention detects a difference between the feedback circuit unit 25 for detecting a driving voltage flowing through the lamp LA and the voltage detected by the feedback circuit unit 25 and a predetermined reference voltage. An error detector 26, a comparator 27 for comparing the reference triangular wave voltage by the second signal converter 23 and the difference voltage by the error detector 16, and an output of the comparator 27 And an output driver 28 for adjusting the duty ratio of the PWM driving signal to supply the driving switch 21.

In addition, the backlight inverter of the present invention is connected to the feedback circuit unit 25 in parallel to detect the shutdown of the lamp and output a shutdown protection signal SDP1, and the shutdown detection unit 29 When the shutdown protection signal SDP1 or the external shutdown signal Ex-Sy is input, an enhanced shutdown protection control unit E-SDPC is provided to provide the shutdown signal SSD to the output driver 28.

FIG. 3 is a circuit diagram of the enhanced shutdown protection controller of FIG. 2. Referring to FIG. 3, the enhanced shutdown protection controller E-SDPC is switched by the shutdown protection signal SDP1 of the shutdown detection unit 29. A first switch Q11 that provides an internal shutdown detection signal, a second switch Q12 that is switched by an external shutdown signal Ex-Sy to provide an external shutdown detection signal, and the first switch Q11 Compares the OR of the logic logic logic element OR-GATE and the OR of the logic logic logic element OR-GATE with the OR of the external shutdown detection signal through the second switch Q12. Comparator COMP and a latch LT for providing a shutdown signal SSD to the output driver 28 according to the output of the comparator COMP.

Operation of the preferred embodiment of the present invention configured as described above will be described in detail below based on the accompanying drawings.

Referring to FIG. 2, a process of supplying driving power to a lamp of a backlight in a backlight inverter having an improved shutdown stabilization function according to the present invention will be described.

First, the drive switch 21 switches the voltage Vcc on / off according to the PWM drive signal described below, and the first signal converter 22 thereafter is a square wave output from the drive switch 21. Converts the voltage into a square wave voltage, and then the second signal converter 23 converts the square wave voltage of the first signal converter 22 into a triangular wave voltage, and then the transformer and driver 24 The square wave voltage of the first signal converter 22 is converted into driving power of the lamp and supplied to the lamp LA. Through this process, a direct current (DC) voltage is converted into an alternating current (AC) voltage suitable for driving a lamp and supplied to the lamp of the backlight to drive the lamp of the backlight.

Next, in the backlight inverter of the present invention, a feedback control process for the lamp brightness will be described. First, the feedback circuit unit 25 of the inverter detects a driving voltage flowing through the lamp LA. The error detection unit 26 next detects the difference voltage between the detection voltage by the feedback circuit unit 25 and a preset reference voltage, and then the comparison unit 27 performs the second signal conversion unit 23. The reference triangular wave voltage by the difference and the difference voltage by the error detection unit 16 are compared. The output driver 28 adjusts the duty rate of the PWM driving signal according to the output of the comparator 27 and supplies it to the driving switch 21. Through this process, the brightness of the lamp is adjusted by adjusting the duty ratio of the driving signal according to the difference between the reference voltage and the driving voltage.

In addition, in the inverter of the present invention, the shutdown function will be described. The shutdown detection unit 29 of the inverter is connected to the feedback circuit unit 25 in parallel to detect the shutdown of the lamp to shut down the protection signal. (SDP1) is outputted, and then the enhanced shutdown protection control unit (E-SDPC) inputs the shutdown protection signal (SDP1) of the shutdown detection unit (29) or the shutdown signal (Ex-Sy) from the outside. 28) provides a shutdown signal (SSD), which will be described in detail below.

Referring to FIG. 3, the first switch Q11 of the enhanced shutdown protection controller E-SDPC is switched by a shutdown protection signal SDP1 of the shutdown detection unit 29 to provide an internal shutdown detection signal. In addition, the second switch Q12 is switched by an external shutdown signal Ex-Sy to provide an external shutdown detection signal. The logical sum logic element OR-GATE then ORs the internal shutdown detection signal through the first switch Q11 and the external shutdown detection signal through the second switch Q12, and then the comparator COMP The output of the logic sum logic element OR-GATE is compared with the reference voltage, and the latch LT provides a shutdown signal SSD to the output driver 28 according to the output of the comparator COMP.

In the backlight inverter of the present invention as described above, an operation for shutting down when an output circuit is abnormal is necessary. In addition, if there is a need to stop the operation of the inverter circuit in the external controller, it is necessary to simply implement the shutdown circuit. Therefore, in the inverter of the present invention, not only the signal applied to the enhanced shutdown protection control unit (Enhanced SDP Control) through the output unit but also the signal inputted by the value applied through the external synchronization control signal Ex-Sy. Shutdown was configured to occur, and a latch was added to the output of the enhanced shutdown protection controller l to maintain a shutdown signal.

Therefore, the present invention implements a function of protecting a lamp or a trans by an external control signal that cannot be realized in a conventional inverter, and also outputs an output unit and an external control signal with only a small number of elements. The shutdown of the inverter circuit can be easily controlled by the input of, and the circuit can be shut down through the latch.

The backlight inverter to which the present invention as described above is applied may include a TFT backlight inverter or the like, and the present invention may be applied not only to a backlight inverter but also to a device or a system for preventing malfunction of the inverter, such as a backlight inverter. have.

The above description is only a description of specific embodiments of the present invention, and 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.

According to the present invention as described above, by allowing the inverter to be shut down by an external control signal, it is possible to shut down the inverter arbitrarily in addition to the abnormality of the output unit as well as to shut down the output driver more stably. It is effective to keep it in a state.

Claims (2)

A driving switch 21 for switching the voltage Vcc on / off according to the PWM driving signal; A first signal converter 22 converting a square wave voltage output from the driving switch 21 into a square wave voltage; A second signal converter 23 for converting the square wave voltage of the first signal converter 22 into a triangular wave voltage; A transformer and driver 24 for converting the square wave voltage of the first signal converter 22 into a driving power of the lamp and supplying the lamp to the lamp LA; A feedback circuit unit 25 for detecting a driving voltage flowing through the lamp LA; An error detection unit 26 for detecting a difference voltage between the detection voltage by the feedback circuit unit 25 and a preset reference voltage; A comparison unit (27) for comparing the reference triangular wave voltage by the second signal conversion unit (23) with the difference voltage by the error detection unit (16); An output driver 28 for adjusting the duty ratio of the PWM driving signal according to the output of the comparing unit 27 and supplying the duty ratio to the driving switch 21; A shutdown detection unit 29 connected in parallel with the feedback circuit unit 25 to detect shutdown of the lamp and output a shutdown protection signal SDP1; And An enhanced shutdown protection control unit (E-SDPC) that provides a shutdown signal (SSD) to the output driver (28) when the shutdown protection signal (SDP1) of the shutdown detection unit (29) or the shutdown signal (Ex-Sy) is input from the outside. ); Backlight inverter with improved shutdown stabilization characterized in that it comprises a. The method of claim 1, wherein the enhanced shutdown protection control (E-SDPC) is A first switch Q11 switched by a shutdown protection signal SDP1 of the shutdown detection unit 29 to provide an internal shutdown detection signal; A second switch Q12 switched by an external shutdown signal Ex-Sy to provide an external shutdown detection signal; A logical sum logic element (OR-GATE) for ORing the internal shutdown detection signal through the first switch Q11 and the external shutdown detection signal through the second switch Q12; A comparator (COMP) for comparing the output of the logic sum logic element (OR-GATE) with a reference voltage; And A latch (LT) for providing a shutdown signal (SSD) to the output driver (28) according to the output of the comparator (COMP); Backlight inverter with improved shutdown stabilization function comprising a.