KR100359939B1 - Circuit for dimming controlling of backlight inverter - Google Patents

Abstract

According to the present invention, all three modes of analog dimming, PWM dimming, and complex dimming can be selectively used by ASIC, thereby simultaneously realizing analog dimming and PWM dimming, and improving productivity while improving quality and reliability. The present invention relates to a dimming control circuit of a backlight inverter, which includes a switching unit for receiving an input voltage and transferring the same to a lamp, and controlling a switching unit using a signal of a feedback part connected to the lamp as an input to supply power for blinking a lamp. It is characterized in that it comprises a transformer for ASIC deciding means for determining the, and a transformer for supplying the rectified and smoothed input voltage to the lamp as a direct drive power.

Description

Dimming control circuit of backlight inverter {Circuit for dimming controlling of backlight inverter}

The present invention relates to a dimming control circuit of a backlight inverter, and more particularly, to enable complex dimming, analog dimming, and PWM dimming to be realized through independent circuits, and to improve reliability and productivity by ASIC of the proprietary circuits. It relates to a dimming control circuit of the inverter.

Inverter is a reverse conversion device that converts DC power into AC power. In addition to using a combination of a DC motor and an alternator, using a vibrator, using a discharge tube, these days, transistors and thyristors are widely used. have.

Such an inverter is generally used as an alternating current power source for mobile use, a fluorescent lamp power source for an automobile, an emergency power source in case of a power failure, or a backlight power source for an LCD or other display device.

Dimming methods of the controller for the backlight inverter currently in use include analog dimming, PWM dimming, and complex dimming. The circuit configuration is varied according to each operation.

In the prior art scheme, the circuit configuration has to be changed for each mode in a discrete form, and the configuration circuit is also complicated.

The present invention has been made to solve the above problems of the prior art, the object of which is to analogize dimming and PWM dimming at the same time by enabling the selective use of all three modes of analog dimming, PWM dimming, complex dimming ASIC The present invention provides a dimming control circuit for a backlight inverter that can be realized at the same time and improves quality and reliability while increasing productivity.

1 is a circuit diagram showing the configuration of the dimming control circuit of the backlight inverter according to the present invention

<Explanation of symbols on main parts of the drawings>

10: reference voltage providing unit 11: oscillator

12 transistor 13 invert circuit

14: dimming selector 15: comparator

16: smoke eastern 17: mode selector

18: comparator 19: drive circuit portion

20: transistor 21: open protector

22: Latch 23: SHDN Protector

24: ASIC means 25: amplifier

According to a feature of the present invention for achieving the above object, a switching unit for receiving an input voltage and delivering it to the lamp, by controlling the switching unit by inputting the signal of the feedback portion connected to the lamp for the flashing of the lamp An ASIC means for determining whether to supply power, and a transformer for passing the switching unit and supplying the rectified and smoothed input voltage to the lamp as a driving power directly; The ASICization means provides a dimming control circuit of a backlight inverter configured to selectively use three modes of analog dimming, PWM dimming, and complex dimming.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the 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.

1 is a circuit diagram showing a configuration of a dimming control circuit of a backlight inverter according to the present invention.

Referring to FIG. 1, according to the present invention, the third transistor Q3 performs a switching function for receiving an input voltage Vin and transferring the same to the lamp LAMP and on / off according to an external on / off signal. By controlling the third transistor Q3 by inputting the first and second transistors Q1 and Q2 that are turned off and the signal of the feedback portion connected to the lamp LAMP and composed of a plurality of resistors, diodes, and capacitors as inputs. ASIC means (24) for determining whether to supply power for the flashing of the lamp (LAMP), and an input voltage passed through the third transistor (Q3) and rectified by the diode (D1) and smoothed by the inductor (L1). It is composed of a transformer that receives (Vin) and supplies driving power directly to the lamp.

At this time, referring to the components constituting the ASIC means 24, reference numeral 10 is a reference voltage providing unit, 11 is an oscillator, 12 is a transistor, 13 is an inverting circuit, 14 is a dimming selector, 15 is a comparator, 16 is The moving part, 17 is a mode selector, 18 is a comparator, 19 is a driving circuit part, 20 is a transistor, 21 is an open protector, 22 is a latch, 23 is a SHDN protector, and 25 is an amplifier.

Briefly describing the operation of the present invention configured as described above are as follows.

When the first transistor Q1 is turned on by an external on / off signal, power is supplied to the ASICization means 24 through the second transistor Q2, and thus the lamp LAMP is turned on. In this case, when a dimming signal is applied through S1 or S2 of the ASICization means 24, the brightness of the lamp may be adjusted.

Thereafter, when a mode is selected by outputting a control signal to the mode selector 17 in S3 of the ASICization means 24, analog or PWM or complex dimming is selected, and the dimming selector 14 is selected according to the selected mode. ) Generates a proper reference voltage and is supplied to the input of the amplifier 25. This is to control the duty of the third transistor Q3 through the driving circuit portion 19 of the output compared to the other input of the comparator 18. At this time, when the mode is selected by PWM dimming, the output generated from the oscillator 11 is compared by the comparator 15, and the output of the amplifier 25 is turned on / off by the transistor 20, which turns off the actuating portion 16. Comparing the input to the comparator 18 and transferring the output to the driving circuit unit 19, the duty of the third transistor q3 is controlled to control the input terminal of the amplifier 25 fed back from the lamp LAMP. .

When the mode is selected by the complex dimming, the output of the comparator 15 becomes low when the output of the lamp is high in the dimming selector 14, depending on the variation of S1 or S2. When a variable voltage is applied to the input of the amplifier 25 and the output of the lamp LAMP becomes a predetermined value or less, it is switched to the PWM function and the output sent from the dimming selector 14 to the amplifier 25 becomes a fixed voltage. The same operation as for PWM dimming is controlled.

In the case where the mode is selected by analog dimming, the output of the comparator 15 is low, and the output duty of the driving circuit section 19 is controlled only by the variable voltage of the dimming selecting section 14.

In FIG. 1, the open protector 21 protects the system by keeping the output voltage below a predetermined voltage when the lamp is opened, and the SHDN protector 23 latches the lamp after a predetermined time when the lamp is opened. 22, the driving circuit unit 19 is blocked to control the output.

As a result, in the present invention, the complex dimming, the analog and the PWM dimming can be handled by the mode selector 17 according to the specifications of the lamp, and the ASIC conversion means 24 is realized by using each unique circuit configuration as one chip. It was.

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.

The dimming control circuit of the backlight inverter of the present invention configured as described above can simultaneously realize both analog dimming and PWM dimming by enabling ASIC to selectively use all three modes of analog dimming, PWM dimming, and complex dimming. This improves the quality and reliability while increasing productivity.

In addition, the price competitiveness of the product can be improved by simplifying the use of ASIC circuits. There is an effect that can be secured.

Claims (1)

Switching unit for receiving an input voltage and passing it to the lamp, ASICization means for determining whether to supply power for the flashing of the lamp by controlling the switching unit by inputting the signal of the feedback portion connected to the lamp, and passing through the switching unit In the dimming control circuit of the backlight inverter comprising a transformer for supplying the rectified and smoothed input voltage to the lamp as a direct drive power, And the ASIC conversion means is configured to selectively use three modes of analog dimming, PWM dimming, and complex dimming.