KR200193174Y1 - Device for protection of inverter for back light of lcd - Google Patents

Abstract

Inverter protection device for LCD backlight according to the present invention, the DC / AC conversion means for switching the inverter driving voltage to create a high-voltage AC for driving the lamp, and receives a high AC voltage from the DC / AC conversion means to flow a current to the lamp The main circuit detects an output connector and a voltage generated at the low voltage side of the output connector, and transmits a lamp state to the microcomputer according to the detected voltage to cut off a circuit voltage necessary for input voltage or other high voltage output. Characterized in that it comprises a detection means.

The ramp voltage detecting means includes a first switching device for switching on and off according to a voltage generated on the low voltage side of an output connector, a constant voltage generator for outputting a constant voltage, and a constant voltage generator for the constant voltage of the first switching device. Characterized in that the divided voltage resistance to apply the voltage level divided by the on, off state to the microcomputer.

According to the present invention, when the lamp connected to the inverter output is disconnected or the lamp ground line is electrically connected to the external ground, an abnormal state of the lamp is detected, and accordingly, the generation of AC high voltage for driving the lamp is cut off. To give.

Description

Inverter protection device for LCD backlight {Device for protection of inverter for back light of LCD}

In particular, the LCD backlight inverter protection device according to the present invention relates to an inverter protection device that detects an operating state of a lamp and controls high voltage generation of the inverter according to the detected value.

Recently, a small and light liquid crystal display (LCD) has been adopted as a display means of the viewfinder instead of the conventional heavy and large CRT display.

In general, LCDs are light-receiving elements that do not emit light by themselves, and thus, by attaching a back light having a high transmittance to the rear of the liquid crystal panel, the LCD displays a clear view of image information displayed on the LCD. Usually a backlight lamp (Lamp) is used as a light emitting means of the backlight. The backlight lamp is a miniaturized fluorescent lamp for general lighting to match the size of the backlight while maintaining its efficiency as much as possible. An inverter for driving such a backlight is shown in FIG. 1.

1 is a circuit diagram showing a conventional LCD backlight inverter control device.

The DC / AC converter 101 converts the inverter drive voltage Vcc1 into AC high voltage for driving the lamp and outputs the current to both ends of the lamp connected in series with the output AC voltage of the DC / AC converter 101. It consists of an output connector 102 for flowing.

Here, the DC / AC converter 101 switches the switching elements Q1 and Q2 for alternately switching and outputting the inverter driving voltage Vcc1 and the voltage induced by the switching of the switching elements Q1 and Q2. It is the structure containing the transformer T1 which induces high pressure to the secondary side n2 by turns ratio n1: n2.

Reference numeral L1 denotes a line filter, R1-R3 denotes a resistor, C1-C3 denotes a capacitor, and D1 denotes a diode.

Referring to the accompanying drawings, a conventional LCD backlight inverter control device configured as described above is as follows.

First, the inverter driving voltage Vcc1 is input to the DC / AC converter 101 through a line filter, and the DC / AC converter 101 converts the inverter driving voltage Vcc1 into a plurality of switching elements Q1 and Q2. ) Alternately switches (PUSH-PULL) and outputs the inverter driving voltage Vcc1 applied to the collector to the primary side of the transformer T1, and the transformer T1 is induced to the primary side n1. The AC high pressure is output to the output connector 103 by the winding ratio n1: n2 to the secondary side n2.

The AC high pressure output from the DC / AC converter 101 is connected to the high voltage side 2 and the low voltage side 3 of the output connector 103 to flow a current to the lamp. At this time, a voltage corresponding to the current flowing through the lamp and the resistance capacitance value R3 is generated on the low voltage side of the output connector 103. In other words, the voltage corresponding to the current x R3 capacitance value flowing through the lamp is applied to the low pressure side.

However, in the related art, even when the lamp of the output connector 102 is turned off or the lamp ground (GND) line is in contact with the external ground (GND), the DC / AC converter 101 operates normally, and thus the output connector 102 is operated. The high pressure side (2) of () continues to receive a high pressure (1000V or more), and no voltage is generated on the low pressure side (1).

Therefore, the push-pull circuit of the DC / AC converter 101 continues to operate even in an abnormal state of the lamp as described above, so that the boosted voltage is always supplied, which may cause a problem in reliability of the discharge lamp and only a large power loss. But there is a problem that may occur such as a fire due to the high-pressure arc discharge of the transformer (T1).

The present invention is derived to solve the above-mentioned conventional problems, and detects an abnormal state of the lamp such as when the lamp connected to the inverter output is pulled out or when the lamp ground line is electrically connected to the external ground. It is an object of the present invention to provide an inverter protection device for an LCD backlight which can block generation of AC high voltage for driving a lamp.

1 is a circuit diagram showing a conventional inverter protection device for the LCD backlight.

Figure 2 is a circuit diagram showing an inverter protection device for the LCD backlight according to the present invention.

<Explanation of symbols for the main parts of the drawings>

101,201 ... DC / AC converter 102,202 ... Output connector

203 ... lamp voltage detector 203a ... constant voltage generator

In order to achieve the above object, the LCD backlight inverter protection device according to the present invention,

DC / AC conversion means for switching the inverter driving voltage to produce an AC high voltage for driving the lamp,

An output connector for supplying a current to the lamp by receiving an alternating current from the DC / AC converting means;

And a lamp voltage detecting means for detecting a voltage generated on the low voltage side of the output connector and transferring the state of the lamp to the microcomputer according to the detected voltage to cut off a circuit voltage necessary for input voltage or other high voltage output. It features.

Here, the lamp voltage detecting means includes a first switching device for switching on and off according to a voltage generated on the low voltage side of the output connector, a constant voltage generator for outputting a constant voltage, and the first switching for the constant voltage of the constant voltage generator. It is characterized by consisting of a voltage divider resistor for applying a voltage level divided by the on and off state of the device to the microcomputer.

Hereinafter, with reference to the accompanying drawings as follows. 2 is a circuit diagram showing an embodiment of an inverter protection device for an LCD backlight according to the present invention.

A DC / AC converter 201 for switching the inverter driving voltage Vcc1 to generate AC high voltage for driving a lamp, and an output connector 202 for applying AC high voltage from the DC / AC converter 201 and flowing it to the lamp. ) And a ramp voltage detection unit 203 for detecting a voltage generated on the low voltage side of the output connector 202 and blocking the input power supply voltage Vcc1 of the DC / AC converter 201 according to the result. It is a configuration to include.

Here, the lamp voltage detection unit 203 outputs a constant voltage by receiving a first switching element Q13 and a power supply voltage Vcc1 for switching on and off according to a voltage generated on the low voltage side of the output connector 202. The voltage divider (R16, R17) for dividing the constant voltage generator 203a, the constant voltage of the constant voltage generator 203a, and the collector side potential according to the on / off state of the first switching element Q13 to the microcomputer. ) Is a configuration that includes.

R11 to R15 and R18 are resistors, C11 to C13 are capacitors, Q11, Q12 and Q14 are switching elements, D11 is a diode, and ZD11 is a zener diode.

An inverter protection device for an LCD backlight according to the present invention configured as described above will be described with reference to the accompanying drawings, and the same parts as in the prior art will be briefly described.

First, when the inverter driving voltage Vcc1 is input to the 12-24V power supply for each model to the DC / AC converter 201, a plurality of switching elements Q11 and Q12 connected by an internal push-pull switch to switch the transformer T11. AC high pressure is output to the output connector 202 through.

The positive terminal (+) of the AC high voltage for driving the inverter output from the transformer (T11) is connected to the high voltage side (n2) of the output connector (202), and the negative terminal (-) of the AC high voltage is connected to the output connector (202). It is connected to the low pressure side (n1) of the) to operate the lamp through the output connector 202.

At this time, the current flowing through the lamp and the voltage corresponding to the resistance capacitance value R13 (current flowing through the lamp × R13) are generated at the 'A' point of the low voltage side of the output connector 202.

The voltage generated on the low voltage side n1 of the output connector 202 is detected by the lamp voltage detection unit 203, and a high or low signal is supplied to the microcomputer according to the lamp state to control the inverter power supply voltage. This is to use the low voltage side n1 of the output connector 202 becomes a zero voltage when the lamp is in a non-static state.

To this end, when the lamp is turned on or plugged in normally, the above voltage (current flowing through the lamp × R13) is generated on the low voltage side of the output connector 202, and the voltage is the diode D11 and the capacitor C13. The rectified voltage is input through the base side resistor R15 of the first switching element Q13 of the lamp voltage detection unit 203.

Then, the first switching element Q13 is turned on, and the resistor R16 connected to the collector of the first switching element Q13 is grounded to the ground by the turn-on of the first switching element Q13. (GND1).

The constant voltage generator 203a of the ramp voltage detector 203 is composed of a second switching element Q14 and a zener diode ZD11, and supplies a power supply voltage Vcc1 to the collector and base of the second switching element Q14. ) Is applied to the emitter, and the cathode terminal K of the zener diode ZD11 is connected to the emitter of the second switching element Q14 by the zener diode ZD11. Is approved.

The voltage output from the constant voltage generator 203a is applied to a resistor R17 connected to the emitter of the second switching element Q14, and this voltage is divided by the resistors R16 and R17, and this divided voltage is obtained. Voltage is supplied to the microcomputer. At this time, the resistance value R17 is set several times larger than R16, so that most of the voltage is applied to the resistor R17, and less is applied to R16.

The voltage divided by the voltage dividing resistors R16 and R17 is transferred to the microcomputer. At this time, the microcomputer recognizes the ramp-on signal as a low level and continuously sends a wave-on signal to the power on / off terminal to continuously operate the inverter. Be sure to

On the other hand, when the lamp is in an abnormal state, such as when the lamp is turned off or off, there is no voltage flowing to the low voltage side n1 of the output connector 202. As a result, the first switching element Q13 of the lamp voltage detection unit 203 is not present. ) Is turned off.

When the first switching element Q13 is turned off, the resistor connected to the collector is floated on one side thereof, so that the voltage generated from the constant voltage generator 203a is supplied to the microcomputer through the resistor R17. That is, the voltage output from the constant voltage generator 203a is voltage-falled at the resistor R17 without voltage division and transferred to the microcomputer as a high level ramp-off signal.

At this time, the microcomputer recognizes the high level ramp-off signal and outputs a power off signal to the power on / off terminal to turn off the operation of the inverter.

As described above, the inverter protection device for LCD backlight according to the present invention, to detect the state, such as when the lamp is off or the lamp is off, transmit to the microcomputer to send a power off signal to the power on / off terminal of the inverter By blocking the operation of the inverter to prevent the reliability problems caused by high-voltage discharge.

Claims (2)

DC / AC conversion means for switching the inverter driving voltage to produce an AC high voltage for driving the lamp, An output connector for supplying a current to the lamp by receiving an alternating current from the DC / AC converting means; And a lamp voltage detecting means for detecting a voltage generated on the low voltage side of the output connector and transferring the state of the lamp to the microcomputer according to the detected voltage to cut off a circuit voltage necessary for input voltage or other high voltage output. Inverter protection device for LCD backlight. The method of claim 1, The ramp voltage detecting means includes a first switching device for switching on and off according to a voltage generated on the low voltage side of an output connector, a constant voltage generator for outputting a constant voltage, and a constant voltage generator for the constant voltage of the first switching device. Inverter protection device for LCD backlight, characterized in that consisting of a voltage divider resistor for applying a voltage level divided by the on, off state to the microcomputer.