KR100643407B1 - A circuit for controling a horizontal size in a video display system - Google Patents

Abstract

The present invention relates to a horizontal size control circuit of a display device capable of driving the horizontal deflection output part even at a voltage lower than the existing B + voltage by supplying a separate DC voltage to the horizontal deflection output part of the disclosed high resolution display device superimposed on a PWM pulse. .

The apparatus of the present invention is turned on and off in accordance with a PWM oscillator for outputting a square wave having an appropriate duty according to the frequency of the horizontal synchronization signal, a transformer for transmitting the square wave to a switching unit, and a square wave which is an output signal of the transformer. The horizontal size control circuit of the display device comprising a switching unit for outputting an appropriate B + voltage, a horizontal deflection output unit driven by the voltage output from the switching unit, and a power supply unit for supplying an appropriate voltage to each part of the display device. To; A snubber circuit unit between the transformer and the switching unit for removing an impulse component due to switching of the switching unit; A voltage overlapping unit configured to apply a constant DC voltage supplied from the power supply unit to an output terminal of the switching unit so that the PWM pulse voltage output from the switching unit overlaps with the predetermined DC voltage and is supplied to the horizontal deflection output unit; And a current interrupting unit for preventing the feedback voltage of the switching unit from being applied to the power supply unit in the reverse direction.

Therefore, the present invention can supply the B + voltage required for the horizontal deflection output unit at a low voltage, and can reduce the material cost by lowering the ratings of various components of the existing voltage B + line, and use the low voltage to prevent crosstalk and To provide a beneficial effect on the PCB pattern design.

Horizontal deflection, PWM, horizontal frequency, power supply B +, FET

Description

A circuit for controling a horizontal size in a video display system

1 is a horizontal size control circuit diagram of a display device according to the prior art;

2 is a view showing an embodiment of a horizontal size control circuit of a display device according to the present invention;

3 is a waveform diagram of each part of FIG. 2.

* Description of Signs of Main Parts of Drawings *

10: PWM oscillator 20: Horizontal deflection output

30: power supply 40: snubber circuit

50: power overlap 60: current interruption

T: transformer FET; Field effect transistor

C1 ~ C3: Condenser D1 ~ D4: Diode

R1 ~ R4: resistance

The present invention relates to a horizontal size control circuit of a display device. More specifically, by supplying a separate DC voltage superimposed on a PWM pulse to a horizontal deflection output part of a high resolution display device, a horizontal voltage is lower than a conventional B + voltage. A horizontal size control circuit of a display device capable of driving a deflection output part.

Generally, high resolution display devices are designed to display multiple modes from 31.5KHz in VGA mode to an appropriate frequency of 100KHz or more. The voltage supplied to the horizontal deflection output portion varies in magnitude depending on the horizontal frequency. That is, when the display device is a high resolution, the horizontal synchronization signal is a high frequency, so the magnitude of the B + voltage should also be large.

1 is a view for explaining a horizontal size control circuit of a display device according to the prior art.

Efficient matching with PWM oscillator 10 for outputting square wave with proper duty according to the frequency of horizontal synchronous signal input, capacitor C1 for DC-coupling square wave of PWM oscillator 10 A transformer (T), a capacitor (C2) extracting only AC PWM pulses, a field effect transistor (FET) that is turned on and off according to a PWM pulse signal, and generates an appropriate voltage B +, and in the field effect transistor (FET) It consists of the horizontal deflection output part 20 driven by the voltage to supply.

The operation of the horizontal size control circuit of the conventional display device configured as described above is as follows.

The PWM oscillator 10 outputs a square wave according to the frequency of the input horizontal synchronous signal, and the square wave which is the output signal of the PWM oscillator 10 is DC-coupled by the capacitor C1, and is passed through the transformer T. Only the AC pulse is extracted again at (C2) and applied to the gate of the field effect transistor (FET).

According to the square wave input to the gate terminal of the field effect transistor (FET), the field effect transistor (FET) which is a switching element is turned on / off. That is, when the PWM pulse is 'high', the field effect transistor (FET) is turned on to transfer the B + voltage applied to the drain to the source. When the PWM pulse is 'low', the field effect transistor (FET) is turned off and applied to the drain. It does not transfer the B + voltage to the source.

Therefore, the on-off time of the field effect transistor FET varies according to the horizontal frequency input, and the magnitude of the B + voltage applied to the drain also varies.

As described above, since the PWM pulse is used as the horizontal deflection output voltage, a high voltage is required when the frequency of the horizontal synchronizing signal is a high frequency, so a high DC voltage should be applied to B +.

When a high DC voltage is applied to B +, there is a problem in that the material cost of the components is high because the rating of the peripheral components must be relatively high.

In addition, there are problems of limitation of PCB (Print Circuit Board) pattern and possibility of crosstalk between patterns due to high voltage.

Accordingly, an object of the present invention is to supply a separate DC voltage superimposed on the PWM pulse to the horizontal deflection output unit to solve the above-described problems, thereby efficiently driving the horizontal deflection output unit even at a voltage lower than the conventional B + voltage. It is to provide a horizontal size control circuit of a display device.

The horizontal size control circuit of the display device according to the present invention for achieving the above object includes a PWM oscillator for outputting a square wave having an appropriate duty according to the frequency of the horizontal synchronization signal, a transformer for transmitting the square wave to the switching unit; A switching unit for turning on and off according to a square wave which is an output signal of the transformer and outputting a proper B + voltage according to the on and off, a horizontal deflection output unit driven by a voltage output from the switching unit, and suitable for each part of the display device A horizontal size control circuit of a display device comprising a power supply for supplying a voltage; A snubber circuit unit between the transformer and the switching unit for removing an impulse component due to switching of the switching unit; A voltage overlapping unit configured to apply a constant DC voltage supplied from the power supply unit to an output terminal of the switching unit so that the PWM pulse voltage output from the switching unit overlaps with the predetermined DC voltage and is supplied to the horizontal deflection output unit; And a current interrupting unit for preventing the feedback voltage of the switching unit from being applied to the power supply unit in the reverse direction.

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

2 is a view showing a horizontal size control circuit of a display device according to the present invention.

The PWM oscillator 10 outputs a square wave having an appropriate duty according to the frequency of the input synchronization signal, the capacitor C1 for DC-coupling the square wave of the PWM oscillator 10, and an efficient matching with the output unit. A transformer (T), a capacitor (C2) extracting only an AC PWM pulse, a circuit protection pulsable resistor (R3), a field effect transistor (FET) that is turned on and off in accordance with a PWM pulse signal, and generates an appropriate voltage B +; And a horizontal deflection output unit 20 driven by a voltage supplied from the field effect transistor FET, a power supply unit 30 for supplying appropriate power to each part of the display device, and a constant from the power supply unit 30. A voltage overlapping part 50 for supplying a DC voltage to the horizontal deflection output part 20, and connected between the power supply part 30 and the voltage overlapping part 50 according to switching noise of the field effect transistor FET. Avoid feedback noise It consists of a current interrupter 60 for.

The contact point between the capacitor C2 and the resistor R3 is composed of a diode D1 connected in parallel, a resistor R1, and a capacitor C3, and a snubber for removing an impulse component due to the field effect transistor FET. The circuit unit 40 is connected, and the gate load resistor R2 of the field effect transistor FET connected in parallel with the snubber circuit 40 and the circuit protection diode D2 are connected.

In addition, the voltage overlapping unit 50 is configured of a flywheel diode D3 connected to an input terminal of the horizontal deflection output unit 20 with a proper DC voltage applied to the anode terminal from the power supply unit 30. .

The current blocking unit 60 is an anode is connected to the power supply 30, the cathode is connected between the anode of the flywheel diode (D3) and the diode D4, one side is connected to the cathode of the diode (D4) The capacitor C4 is connected in parallel and the other side is grounded.

The operation of the horizontal size control circuit of the display device according to the present invention configured as described above will be described in more detail.

3 is an output waveform diagram of each part of the horizontal size control circuit according to the present invention.

The PWM oscillator 10 outputs a PWM square wave having an appropriate duty according to the input horizontal frequency f (FIG. 3 (a)). This square wave has a peak-to-peak voltage value of about 12V.

The PWM square wave is applied to the transformer T through the coupling capacitor C1. The transformer (T) matches the signal to the field effect transistor (FET) without voltage or current loss.

The square wave of FIG. 3 (a) leaves only pure pulse components by the capacitor C2, and the signal applied to the gate of the field effect transistor FET by the resistors R2 and R3 is shown in FIG. 3 (b). As shown, a square wave having a peak-to-peak voltage of almost B + is input. When a square wave as shown in FIG. 3B is applied to the gate of the field effect transistor FET, the field effect transistor FET repeats on and off. That is, when the PWM signal applied to the gate is 'high', the field effect transistor (FET) is turned on, so the B + voltage applied to the drain is output to the source, and when the PWM signal is 'low', the field effect transistor (FET) is turned off, There is no B + voltage output. Therefore, the voltage value output from the source of the field effect transistor FET has the voltage value of the waveform as shown in FIG.

In addition, an appropriate DC voltage is applied to the anode terminal of the diode D3 through the power supply unit 30. This voltage is assumed to be αV, as shown in FIG. 3 (d).

Accordingly, a voltage obtained by adding the values of the source output value of the field effect transistor FET and the cathode output value of the diode D3 in FIG. 3 (d) to the input terminal of the horizontal deflection output unit 20 is supplied. . That is, when the two voltages overlap, the voltage having the waveform as shown in FIG. 3E is supplied to the horizontal deflection output unit 20.

Therefore, a sufficient voltage can be supplied to drive the horizontal deflection output unit 20 even at a voltage much lower than the conventional B + voltage.

In addition, in the diode D4 and the capacitor C4 connected between the power supply unit 30 and the diode D3, a current flowing through the horizontal deflection output unit 20 in the source of the field effect transistor FET, which is a switching element, is supplied to the power supply unit. It flows in the reverse direction to (30), and is for preventing the (alpha) V value from affecting.

As described above, according to the horizontal size control circuit of the display device according to the present invention, by superimposing a separate DC voltage to the PWM pulse in the horizontal deflection output unit, the same effect can be obtained at a voltage much lower than the conventional voltage B +, By lowering the rating of various components of the existing voltage B + line, material cost can be reduced, and low voltage is used, which provides a beneficial effect on PCB pattern design such as crosstalk prevention.

Claims (3)

PWM oscillation unit for outputting square wave having proper duty according to the frequency of horizontal synchronous signal, transformer for transmitting the square wave to switching unit, square wave which is output signal of the transformer and turned on and off according to on and off, proper B + voltage A horizontal size control circuit of a display device comprising a switching unit for outputting a signal, a horizontal deflection output unit driven by a voltage output from the switching unit, and a power supply unit for supplying an appropriate voltage to each part of the display apparatus; A snubber circuit unit between the transformer and the switching unit for removing an impulse component due to switching of the switching unit; A voltage overlapping unit configured to apply a constant DC voltage supplied from the power supply unit to an output terminal of the switching unit so that the PWM pulse voltage output from the switching unit overlaps with the predetermined DC voltage and is supplied to the horizontal deflection output unit; And a current blocking unit for preventing the feedback voltage of the switching unit from being applied to the power supply unit in a reverse direction. The method of claim 1, wherein the voltage overlapping portion, The horizontal size control circuit of the display device, characterized in that the flywheel diode is applied from the power supply to the anode terminal from the power supply and the cathode is connected to the input terminal of the horizontal deflection output. The method of claim 1, wherein the current blocking unit, An anode is connected to the power supply and a cathode is connected between the anode of the flywheel diode; One side is connected to the contact between the diode and the flywheel diode, the other side is a horizontal size control circuit of the display device, characterized in that consisting of a capacitor is grounded.

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