KR20010029114A - Piezo inverter for liquid crystal display monitor - Google Patents

Abstract

PURPOSE: A piezoelectric inverter is provided to be capable of simplifying a circuit configuration of the piezoelectric inverter by varying a pulse applied to a drive section using a microcomputer. CONSTITUTION: A microcomputer(100) outputs an initial pulse signal to a piezoelectric transformer(50) when a voltage is applied through a power supply section(10). The microcomputer(100) converts into a digital signal an output voltage(Vb) of a current-to-voltage converter(400) and an externally applied dimming control voltage(Va). The microcomputer(100) sums the converted digital signals and compares the summed value with pulse variation information stored in a memory. The microcomputer(100) varies a pulse signal output to a drive section(40) in response to a comparison result. If a voltage sensed by the first resistor group(200) is over a predetermined voltage, the microcomputer(100) judges a cold cathode ray tube(60) as an off state to stop an output of the pulse signal.

Description

Piezoelectric inverter for LCD monitors {PIEZO INVERTER FOR LIQUID CRYSTAL DISPLAY MONITOR}

The present invention relates to a piezoelectric inverter for LCD (LCD: LIQUID CRYSTAL DISPLAY) monitor, and more particularly, by using a microcomputer to vary the pulse input to the driving unit according to the dimming control voltage and the tube current of the cold cathode tube. It relates to a piezoelectric inverter for LCD monitors to control the brightness of the cathode tube.

In general, an LCD monitor or a liquid crystal monitor is provided with a backlight and a piezoelectric inverter is used to operate the backlight.

As shown in FIG. 1, the piezoelectric inverter for a conventional LCD monitor includes a power supply unit 10, an integrated circuit 20, a V / F converter 30, a driver 40, a piezoelectric transformer 50, and a cold cathode tube. 60, a current detector 70, an I / V converter 80, and a dimming controller 90.

First, the power supply unit 10 is configured to supply a voltage required for the system according to the voltage Vin input to the input unit and the on / off signal of the system.

The integrating circuit 20 is connected to the power supply 10 so as to integrate and output the output voltage from the power supply 10, and the V / F converter 30 is in accordance with the voltage input through the integrating circuit 20. It is connected to the output terminal of the integrating circuit 20 to generate a frequency corresponding thereto.

The driver 40 is connected to an output terminal of the V / F converter 20 to generate an AC signal by the frequency input from the V / F converter 30 and to apply it to the piezoelectric transformer 50. The transformer 50 is connected to the output terminal of the driver 40 to generate and output an AC high voltage according to the input voltage input.

The cold cathode tube 60 is connected to the output terminal of the piezoelectric transformer 50 so as to be turned on by the AC high voltage output from the piezoelectric transformer 50, and the current detector 70 is cold to detect the tube current flowing through the cold cathode tube 60. It is connected to the cathode tube 60.

In addition, the I / V converter 80 is connected to an output terminal of the current detector 70 so as to output a voltage corresponding thereto according to the magnitude of the tube current detected by the current detector 70, and the dimming controller 90 is operated by a user. According to the dimming control voltage Va and the output voltage of the I / V converter 80, and outputs a feedback voltage Vb to vary the magnitude of the voltage input to the integrating circuit 20. Is connected to an output terminal of the I / V converter 80 and an input terminal of the integrating circuit 20 to adjust the brightness.

Hereinafter, the operation of the piezoelectric inverter for a conventional LCD monitor will be described in detail with reference to FIG. 1.

First, when a voltage having a predetermined magnitude is output from the power supply unit 10 to the integrating circuit 10, the integrating circuit 20 integrates a voltage having a predetermined magnitude and outputs the integrated voltage to the V / F converter 30. .

Then, the V / F converter 30 generates a frequency corresponding to the input voltage and outputs the frequency to the driver 40, and the driver 40 generates an AC signal according to the input frequency to generate a piezoelectric transformer ( 50) to output AC signal.

As a result, AC high voltage is generated in the piezoelectric transformer 50 to light the cold cathode tube 60.

On the other hand, when the cold cathode tube 60 is turned on and the tube current flows, the current detector 70 detects the tube current of the cold cathode tube 60 and outputs it to the I / V converter 80, and the I / V converter 80 The voltage is generated according to the magnitude of the current and output to the dimming controller 90.

Then, the dimming control unit 90 feeds back a feedback voltage Vb of a predetermined magnitude to the integrating circuit 20 according to the dimming control voltage Va set by the user and the voltage input from the I / V converter 80. Since the integrating circuit 20 integrates a voltage corresponding to a predetermined magnitude applied by the power supply unit 10 and a voltage corresponding to the magnitude of the feedback voltage Vb, the integrating circuit 20 outputs the cold cathode tube 50 to the cold cathode tube 50. ) Brightness is adjusted.

However, such a conventional piezoelectric inverter for LCD monitors requires a large number of components such as a V / F converter, an integrated circuit, and a dimming controller to drive the piezoelectric transformer, which makes it difficult to cope with a small quantity production of a variety of products.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and its purpose is to control the brightness of the cold cathode tube by varying the pulse applied to the driving unit using a microcomputer, thereby simplifying the circuit of the piezoelectric inverter to actively cope with small quantity production. It is to make it possible.

1 is a block diagram schematically showing a piezoelectric inverter for a conventional LCD monitor

2 is a block circuit diagram schematically showing a piezoelectric inverter for an LCD monitor according to the present invention.

<Description of the code | symbol about the principal part of drawing>

40: drive part 50: piezoelectric transformer

60: cold cathode tube 100: microcomputer

200: first resistance group 300: second resistance group

400: I / V converter

Features of the present invention for achieving the above object, the power supply for supplying a voltage, a drive unit for outputting an AC signal in accordance with the voltage output from the voltage supply unit, AC high voltage in accordance with the AC signal output from the drive unit In the piezoelectric inverter comprising a piezoelectric transformer for generating a cold cathode tube which is lit by the AC high voltage output from the piezoelectric transformer,

A microcomputer outputting a predetermined pulse signal to the piezoelectric transformer in accordance with an input voltage of the power supply unit;

A first current sensing unit sensing a magnitude of a current applied from the driving unit to the piezoelectric transformer and outputting the current to the microcomputer;

A second current sensing unit connected to an output terminal of the cold cathode tube to sense a magnitude of a tube current of the cold cathode tube;

An I / V conversion unit converting the tube current sensed by the second current sensing unit into a voltage and outputting the voltage to the microcomputer;

The microcomputer changes the output voltage of the I / V converter and the dimming control voltage input from the outside into a digital signal and compares the sum with the pulse variable information previously stored in the storage means and outputs the result to the driver according to a comparison result. The brightness of the cold cathode tube is controlled by varying the pulse signal.

Here, the first current sensing unit is a resistor group connected in parallel between an output terminal of the driving unit and an input terminal of the microcomputer.

In addition, the second current sensing unit is a resistance group connected in series to the output terminal of the cold cathode tube.

On the other hand, the pulse variable information is stored in advance in the form of look-up table data in the storage means of the microcomputer.

Therefore, according to the present invention configured as described above it is possible to simplify the circuit by controlling the brightness of the cold cathode tube by varying the pulse input to the driving unit in accordance with the dimming control voltage and the tube current of the cold cathode tube in the microcomputer.

Hereinafter, the configuration and operation of the piezoelectric inverter for LCD monitor according to the present invention will be described in detail with reference to FIGS. 2 and 3. In FIG. 2, the same part as the piezoelectric inverter for LCD monitor shown in FIG. 1 is given the same code | symbol as FIG. 1, and the description is abbreviate | omitted.

2 is a block circuit diagram schematically illustrating a piezoelectric inverter for an LCD monitor according to the present invention, and FIG. 3 is an exemplary view showing pulse variable information previously stored in a memory of a microcomputer according to the present invention.

Referring to FIG. 2, first, the microcomputer 100 outputs an initial pulse signal to the piezoelectric transformer 50 when a voltage having a predetermined magnitude is applied through the power supply unit 10 while the system is turned on. After changing the output voltage Vb of 400 and the dimming control voltage Va input from the outside into a digital signal, the sum thereof is compared with pulse variable information previously stored in an internal memory, and the driving unit 40 according to the comparison result. It is configured to vary the pulse signal output to. In addition, when the magnitude of the voltage Vs sensed by the first resistor group 200 is greater than or equal to a predetermined magnitude, the microcomputer 100 senses the opening of the cold cathode tube 60 to stop the output of the pulse signal to protect the system. Here, the pulse variable information is previously stored in the memory as data in the form of a lookup table as shown in FIG. 3.

The first resistor group 200 is connected in parallel to an output terminal of the driving unit 40 and an input terminal of the microcomputer 100 to sense an AC high voltage output from the driving unit 40 to the piezoelectric transformer 50.

The second resistance group 300 is connected in series to one end of the cold cathode tube 60 so as to sense the tube current of the cold cathode tube 60.

The I / V converter 400 is connected to a node of the second resistor group 300 to change the current sensed by the second resistor group 300 to a voltage recognizable by the microcomputer 100.

Hereinafter, the operation of the piezoelectric inverter for LCD monitor according to the present invention will be described in detail with reference to FIG. 3.

First, when a voltage having a predetermined magnitude and an on-signal of a system are input to the microcomputer 100 from the power supply 10, the microcomputer 100 outputs an initial square wave signal to the driver 30.

Then, since the driving unit 40 includes a resonant circuit therein to match the input capacitance of the piezoelectric transformer 50, an AC signal is generated and applied to the piezoelectric transformer 50 so that the piezoelectric transformer 50 operates near the resonance point. .

Thus, the piezoelectric transformer 50 generates an alternating current high voltage according to an alternating current signal input from the driving unit 40, and outputs it to the cold cathode tube 60 to light up the cold cathode tube 60.

On the other hand, when the cold cathode tube 60 is turned on and a tube current flows through the cold cathode tube 60, it is applied to the I / V converter 400 through the second resistor group 300, so that the current input from the I / V converter 400 is applied. A voltage Vb corresponding to the magnitude of Vb is generated and output to the microcomputer 100.

Then, the microcomputer 100 converts the voltage Vb input from the I / V converter 400 into a digital coefficient using an internal A / D converter, and the dimming control voltage Va input from the outside is also A. Convert to digital coefficients using the / D converter.

Then, the microcomputer 100 adds the converted two digital coefficients, compares the value with the pulse variable information previously stored in the internal memory, and searches for the pulse variable value corresponding to the value, that is, the duty ratio.

When the pulse variable value is found, the microcomputer 100 adjusts the brightness of the cold cathode tube 60 by varying the pulse signal output to the driver 40 according to the pulse variable value and outputting the pulse signal to the driver 40.

For example, if the magnitude of the voltage Va output from the I / V converter 400 is 5 by converting it into a digital coefficient and the magnitude of the dimming control voltage Va is 3, the microcomputer 100 The memory 65 searches for a duty ratio 65 corresponding to 3 in the memory, and varies the duty ratio of the pulse signal output to the driver 40 to 65 and outputs the duty ratio.

Meanwhile, when the magnitude of the voltage Vs sensed by the first resistor group 200 is greater than the reference voltage, the microcomputer 100 determines that the cold cathode tube 60 is open and cuts off the pulse signal output to the driver 40. Protect your system.

Therefore, the brightness of the cold cathode tube can be controlled by varying the pulse input to the driver according to the dimming control voltage and the tube current of the cold cathode tube using a microcomputer.

As described above, according to the piezoelectric inverter for LCD monitor according to the present invention, the following advantages occur.

That is, since the brightness of the cold cathode tube is controlled by varying the pulse applied from the microcomputer to the driving unit, the circuit of the piezoelectric inverter can be simplified to actively cope with small quantity production.

Claims (4)

A power supply for supplying a voltage required for the system, a driver for outputting an AC signal in accordance with the voltage output from the power supply, a piezoelectric transformer for generating an AC high voltage in accordance with an AC signal output from the driver, and in the piezoelectric transformer A piezoelectric inverter comprising a cold cathode tube lit by an alternating current high voltage output, A microcomputer outputting a predetermined pulse signal to the piezoelectric transformer in accordance with an input voltage of the power supply unit; A first current sensing unit configured to sense a magnitude of a current applied from the piezoelectric transformer to the cold cathode tube and to output it to the microcomputer; A second current sensing unit connected to an output terminal of the cold cathode tube to sense a magnitude of a tube current of the cold cathode tube; An I / V conversion unit converting the tube current sensed by the second current sensing unit into a voltage and outputting the voltage to the microcomputer; The microcomputer changes the output voltage of the I / V converter and the dimming control voltage input from the outside into a digital signal and compares the sum with the pulse variable information previously stored in the storage means and outputs the result to the driver according to a comparison result. A piezoelectric inverter for an LCD monitor, characterized in that for controlling the brightness of the cold cathode tube by varying the pulse signal. The method of claim 1, The first current sensing unit, Piezoelectric inverter for LCD monitor characterized in that the resistance group connected in parallel between the output terminal of the drive unit and the input terminal of the microcomputer. The method of claim 1, The second current sensing unit, Piezoelectric inverter for LCD monitor characterized in that the resistance group connected in series to the output terminal of the cold cathode tube. The method of claim 1, The pulse variable information, Piezoelectric inverter for LCD monitor, characterized in that previously stored in the storage means of the microcomputer as data in the form of look-up table.