KR0117523Y1 - High pressure stabilization circuit by series reactor of monitor - Google Patents

Abstract

The present invention is a high voltage stabilization circuit by a series reactor of a monitor that maintains high voltage by changing the inductance value connected to the collector of the output transistor according to the change of the current flowing through the reactor when the high voltage fluctuates due to the beam current of the CRT. A drive transformer for generating a square wave, a horizontal output transistor switched on / off by a square wave of the drive transformer, a damper diode connected in parallel to an output terminal of the horizontal output transistor, and a retrace connected in parallel to the damper diode. A high voltage generating circuit of a monitor comprising a capacitor, a fly back transformer connected in parallel to the condenser to generate a high voltage, and a high voltage rectifying diode connected to a secondary side of the fly back transformer to rectify the high voltage. Inductance correction connected in parallel Is coiled, the flyback configuration hayeoseo further comprising: a variable reactor which is the primary side coils are connected in series to the primary side of the transformer.

Description

[Designation name]

High voltage stabilization circuit by series reactor of monitor

[Brief Description of Drawings]

1 is a high voltage generation circuit diagram of a conventional monitor.

2 is a high voltage circuit diagram of the monitor according to the present invention.

3 is a waveform diagram of the present invention.

[Description of Symbols for Main Parts of Drawing]

10: drive transformer Q ₁ : output transistor

L ₁ : Coil for inductance correction L ₁ : Variable reactor

D ₁ ~ D ₃ : Variable reactor C ₁ ~ C ₄ : Capacitor

[Detailed Description of Design]

The present invention relates to a monitor, and in particular, to a series reactor of a monitor that can maintain a high voltage by changing an inductance value connected to a collector of an output transistor according to a change in current flowing through the reactor when a high voltage fluctuation is caused by a beam current of a CRT It relates to a high pressure stabilization circuit.

The high voltage generation circuit of the conventional monitor includes a drive transformer 10 generating a square wave, a horizontal output transistor Q ₁ switched on and off by the square wave of the drive transformer 10, as shown in FIG. A retrace capacitor C ₁ connected in parallel to an output terminal of the transistor Q ₁ , and a deflection coil DY and a capacitor C ₂ connected in parallel to the capacitor C ₁ and resonating LC. High voltage rectification for rectifying the high voltage connected to the resonator 20, the flyback transformer (FBT) connected to the output side of the resonator 20 to generate a high pressure, and the secondary side of the flyback transformer (FBT) It comprises a diode D ₂ (D ₃ ).

In the operation of the conventional circuit configured as described above, when the square wave is output from the drive transformer 10, the transistor Q ₁ is repeatedly turned on and off.

At this time, when the transistor Q ₁ is turned on, a current flows in the deflection coil DY, and when the transistor Q ₁ is turned off, energy stored in the deflection coil DY is charged in the capacitor C ₁ .

As described above, when the capacitor C ₁ is charged, L and C resonances occur again by the resonator 20, and the charge of the capacitor C ₁ is dust-proofed through the deflection coil DY.

That is, a loop (LOOP) are formed change the polarity of the deflection coil (DY) by charging and discharging of the capacitor (C ₁₎ via a capacitor (C ₂₎ and the damper diode (D _1).

However, the deterioration is conventional in the high-pressure circuit of the monitoring load changes or when the characteristics of the monitor due to a variation of the high voltage induced in the secondary side of the above operation of the power stage fly when B ⁺ voltage change-back transformer (FBT) as described above drawbacks There is this.

That is, when the high voltage is changed, the size of the raster is changed, the focus is changed, the voltage of the DC power generated using the flyback pulse is changed, and the convergence is unstable.

The present invention was devised to solve the above-mentioned drawback. The inductance value of the output transistor is changed by changing the inductance according to the change in the current flowing through the reactor during the high voltage fluctuation caused by the beam current of the CRT. It is an object of the present invention to provide a high pressure stabilization circuit by a series reactor of a monitor capable of automatically adjusting the high pressure.

In order to achieve the above object, the present invention provides a drive transformer for generating a square wave, a horizontal output transistor switched on and off by the square wave of the drive transformer, a damper diode connected in parallel to an output terminal of the horizontal output transistor, A high-voltage rectifier comprising a retrace capacitor connected in parallel to a damper diode, a flyback transformer connected in parallel to the capacitor to generate a high voltage, and a high-voltage rectifier diode connected to a secondary side of the flyback transformer to rectify the high voltage. The generator circuit is characterized in that it further comprises an inductance correction coil connected in parallel to the resonator, and a variable reactor connected to the primary coil in series on the primary side of the flyback transformer.

Hereinafter, with reference to the accompanying drawings, an embodiment of the present invention in detail as follows.

2 is a schematic diagram of a drive transformer 10 generating a square wave, a horizontal output transistor Q ₁ switched on and off by a square wave of the drive transformer 10, and the transistor Q ₁ . A retrace capacitor (C ₁ ) connected in parallel to the output terminal, a resonator (20) comprising a deflection day (DY) and a capacitor (C ₂ ) for resonating LC connected in parallel with the capacitor (C ₁ ), A flyback transformer (FBT) connected to the output side of the resonator unit 20 to generate a high pressure, and a high voltage rectification diode (D ₂ ) (D2) connected to a secondary side of the flyback transformer (FBT) to rectify the high voltage. ₃ ) In the monitor circuit comprising a), the inductance correction coil (L ₁ ) and the inductance correction coil (L ₁ ) connected in parallel between the deflection coil (DY) and the capacitor (C ₂ ) of the resonator 20. A primary coil is connected in series with the flyback transformer In the figure, reference side to be configured hayeoseo further including a variable reactor (L ₂₎ is the primary side coils are connected in series code C _3, C ₄ are capacitors, R ₁ is the resistance.

The present invention configured as described above increases the DC current of B ⁺ when the high voltage load is increased on the flyback transformer (FBT) secondary side beyond the set during normal operation.

As the DC current of B ⁺ increases, the permeability of the variable reactor L ₂ decreases, thereby reducing the inductance of the secondary coil.

Therefore, when the inductance of the secondary coil of the variable reactor L ₂ decreases, the value of the inductance connected to the collector of the horizontal output transistor Q ₁ (deflection coil DY + inductance correction coil L ₁ + variable reactor ( Secondary side of L ₂ ) is reduced.

In addition, when the inductance value decreases, the retrace time decreases, so that the amplitude of the collector of the horizontal output transistor Q ₁ increases, so that the high voltage is kept constant.

Where the retrace time is Where L is the deflection coil DY and the coil value connected to the collector of the horizontal output transistor Q ₁ , and C is the retrace capacitor C ₁ .

Also high pressure In this case, Vcc is B ⁺ voltage.

3 is another waveform diagram according to the present invention, where (A) is the base voltage of the output transistor Q ₁ , and (B) is the current waveform of the deflection coil DY, where (a) is the horizontal output transistor Q ₁ . Denotes a collector current of (b) and a section (b) shows a current flowing during charging and discharging of the capacitor C ₁ and a section (c) shows a current of a diode D ₂ .

And, (C) represents the collector voltage of the horizontal output transistor (Q ₁ ), where Tr is the retrace time, Vcp represents the high voltage. As the inductance value increases, Tr increases while the Vcp value decreases and the inductance value If this decreases, Tr decreases while Vcp increases.

The present invention as described above has the effect of maintaining a high voltage by using a change in inductance value according to the change in the current flowing through the reactor when the high voltage fluctuation by the beam current of the CRT.

Claims (1)

A drive transformer for generating a square wave, a horizontal output transistor switched on and off by the square wave of the drive transformer, a damper diode connected in parallel to an output terminal of the horizontal output transistor, a retrace capacitor connected in parallel to the damper diode, And a high voltage rectifying diode connected to the capacitor in parallel to generate a high voltage, and a high voltage rectifying diode connected to the secondary side of the flyback transformer to rectify the high voltage. A high voltage stabilization circuit using a series reactor of a monitor, characterized by further comprising a connected inductance correction coil and a variable reactor connected to a primary coil in series on a primary side of the flyback transformer.