KR100186631B1 - Circuit for correcting pincushion distortion in television - Google Patents

Abstract

The present invention relates to a power-driven type image distortion correction circuit, comprising: an SMPS controller (13) for controlling the duty conversion of a power source AC-DC converted by the rectifier (10) by a switching mode, and the SMPS controller (13) The transistor 14 to be switched, the SMPS transformer 12 in which the primary power is induced to the secondary side by the switching action of the first transistor 14, and the potential induced in the secondary side of the SLMPS transformer 12 are photoelectrically detected. Photocoupler 16 applied to the SMPS control means 13, a flyback transformer 19 for generating a driving voltage of the CRT apparatus 21 by the secondary potential of the SMPS transformer 12, and the CRT In a television having a horizontal drive transformer 22 for driving a horizontal deflection of the device 21, the vertical transistor 42 of which the vertical parabolic signal waveform is applied to the base of the photocoupler 16 is applied to the light emitting element 16a side. A collector is connected via a resistor 41 and the SMPS A pin compensation transformer 44 is connected between the secondary side of the lance 12 and the primary side of the flyback transformer 19 to attenuate the change in potential so that pin correction is performed. On the primary side, the collector side of the horizontal transistor 46 to which the secondary side of the horizontal drive transformer 22 is connected is connected to the base, and the inductor 49 and the capacitor 50 are connected to each other.

Description

Power-Driven Image Distortion Correction Circuit

1 is a diagram illustrating a video driving system of a television according to a conventional example.

2 is a view showing a power-driven image distortion correction circuit according to a preferred embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: rectifier 12: SMPS transformer

13 SMPS control unit 14 switching transistor

16: Photocoupler 19: Flyback Transformer

22: horizontal drive transformer 23: horizontal transistor

42: vertical transistor 44: pin compensation transformer

46: horizontal transistor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power-driven image distortion correction circuit, and more particularly, to a power-driven image capable of pin cusion correction for a video signal displayed on a CRT device of a television. It relates to a distortion correction circuit.

As is well known, a CRT apparatus employing a television has an R / G / B color ratio generated from an R / G / B electron gun in response to an image R / G / B signal to a fluorescent point formed on a fluorescent panel of the CRT apparatus. The color image signal is reproduced by the light emission of the fluorescent point.

Therefore, the CRT apparatus deflects the electron beams in the vertical and horizontal directions so that the R / G / B color beams generated from the R / G / B electron guns are evenly distributed on the fluorescent panel on which the fluorescent points are formed. In addition to the vertical and horizontal deflection coils for providing vertical and horizontal deflection drive system for deflection of the electron beam by the vertical and horizontal deflection coils.

In this case, when the fluorescent panel of the CRT device is generally formed in a hemispherical shape, the electron beam generated from the R / G / B electron gun is reached in an evenly distributed form on the fluorescent panel of the hemispherical CRT device. The normal video signal is displayed on the screen.

However, in recent years, as the size and planarization of CRT devices increase, the reach of the electron beams generated by the R / G / B electron guns is different from the center and corners of the fluorescent panel of the CRT device. The video signal is displayed in the shape of a pin cushion in which it is embedded in the vertical direction or the horizontal direction. Therefore, a pincushion correction circuit for pincushion correction is essentially included in a relatively large and flattened CRT apparatus.

FIG. 1 is a view showing a video driving system of a television according to a conventional example, and switching mode power supply (SMPS) via one end of a smoothing capacitor 11 to a rectifying unit 10 formed of, for example, a bridge rectifying element for rectifying AC power. The primary side of the transformer 12 is connected, and the base of the switching transistor 14 to which the collector is connected to the primary side of the SMPS transformer 12 is connected to the SMPS control unit 13.

In addition, the SMPS control unit 13 detects the level of the voltage induced by the SMPS transformer 12 on the secondary side and adjusts the voltage level induced by the SMPS transformer 12 from the primary side to the secondary side of the SMPS transformer 12. The photocoupler 16 to which the electrostatic source Vcc is applied is connected via 15, and the light emitting diode 16a of the photocoupler 16 is connected to the rectifier diode installed on the secondary side of the SMPS transformer 12. While connected to the rear end of 17), the collector side of the light receiving transistor 16b of the photocoupler 16 is connected to the resistor 15 and the emitter side thereof is connected to the SMPS control unit 13.

The primary end of the flyback transformer (FBT) 19 is connected to the rear end of the rectifying diode 17 connected to the secondary side of the SMPS transformer 12 via one end of the smoothing capacitor 18 and the flyback thereof. The anode side of the CRT apparatus 21 is connected to the secondary side of the transformer 19 via a high voltage diode 20.

Also, in FIG. 1, the secondary side of the horizontal drive transformer 22 to which the horizontal drive pulses are applied to the primary side has a base of the horizontal transistor 23 connected to one end of the primary side of the flyback transformer 19. A pair of diodes 24 and 25 and a set of capacitors 26 and 27 are connected between the collector-emitter of the horizontal transistor 23 and an inductor 28 and a capacitor 29 and an inductor ( 30 and the capacitor 31 are connected. In addition, the series connection point of the diodes 24 and 25 and the capacitors 26 and 27 and the connection node of the capacitor 29 and the inductor 30 are interconnected, and the inductor 30 and the capacitor 31 are connected to each other. The collector side of the vertical transistor 32 to which the vertical deflection signal is applied to the base 32 is connected.

In the configuration shown in FIG. 1, AC power is rectified by the rectifying unit 10 and applied to the primary side of the SMPS transformer 12 in a state of level smoothing by the smoothing capacitor 11, and the SMPS control unit 13 In this case, an SMPS switching signal is applied to the base of the switching transistor 14 to induce a voltage from the primary side to the secondary side of the SMPS transformer 12.

Therefore, when the switching transistor 14 switches by the SMPS switching signal, an SMPS current flows intermittently to the primary side of the SMPS transformer 12, and accordingly, a voltage is supplied to the secondary side of the SMPS transformer 12. This is induced and transferred to the primary side of the flyback transformer 19 through the rectifying diode 17 and the smoothing capacitor 18.

Then, the potential of the secondary induced voltage of the SMPS transformer 12 appearing at the rear end of the rectifying diode 17 is applied to the light emitting diode 16a of the photocoupler 16 so that the light emitting diode 16a is turned on. And an optical signal of the light emitting diode 16a is transmitted to the base of the light receiving transistor 16b of the photocoupler 16, and thus an electrostatic source through the resistor 15 based on the light receiving amount of the light receiving transistor 16b. A level of (Vcc) is applied to the SMPS control unit 13 to be applied to the duty ratio conversion of the SMPS switching signal applied to the switching transistor 14.

On the other hand, when a horizontal drive signal for horizontal deflection is applied from the horizontal drive system (not shown) to the primary side of the horizontal drive transformer 22, the potential of the horizontal drive signal induced on the secondary side of the horizontal drive transformer 22 is applied. As a result, the horizontal transistor 23 is brought into a conductive state, so that a current path is formed at the primary side of the flyback transformer 19. Thus, the secondary side of the flyback transformer 19 is induced high pressure depending on the winding ratio with the primary side, rectified in the high-voltage diode 20 and applied to the anode side of the CRT apparatus 21.

Then, the vertical transistor 32 is electrically connected and controlled by the vertical deflection signal applied to the base of the vertical transistor 32 while the horizontal transistor 23 is in a conductive state, and the conduction control of the vertical transistor 32 is conducted. As a result, a B + potential is formed between the inductor 28 and the capacitor 31, and a pincushion potential is formed through the path of the inductor 30, the capacitor 29, the inductor 28, and the diode 24. do.

However, there is a disadvantage in that the image processing system of the television has a pincushion correction circuit to which the modulation method by the diodes 24 and 25 is applied to correct the pincushion.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a power-driven image distortion correction circuit for enabling pincushion correction for a CRT device for a relatively large screen by power supply.

In order to achieve the above object, according to a preferred embodiment of the present invention, SMPS control means for duty conversion control of the AC-DC conversion power supply by the rectifying means by the switching mode, a transistor switched by the SMPS control means, SMPS transformers in which the power supply on the primary side is induced to the secondary side by the switching action of the transistors, photocouplers for photoelectric detection of potentials induced on the secondary side of the SMPS transformers and applied to the SMPS control means, and secondary sides of the SMPS transformers. In a video system of a television comprising a flyback transformer for generating a drive voltage of a CRT device by a potential and a horizontal drive transformer for driving a horizontal deflection of the CRT device, the photocoupler is perpendicular to a base on the light emitting element side. The collector of the vertical transistor to which the parabola signal waveform is applied is connected via a resistor, and the secondary side of the SMPS transformer is connected. A pin compensation transformer is connected between the primary side of the flyback transformer to reduce the change in potential so that pin correction is performed. A horizontal transistor having a base connected to the secondary side of the horizontal driving transformer is connected to the secondary side of the pin correction transformer. A power supply type image distortion correction circuit including an inductor and a capacitor connected to the collector side of the circuit is provided.

Preferably, the pin compensation transformer has its primary side connected to the primary side of the flyback transformer and its secondary side connected to the secondary side of the SMPS transformer and applied to the primary side of the flyback transformer to reduce the change in potential. The secondary side is organically attenuated.

According to the power-driven type image distortion correction circuit according to the present invention having the above-described configuration, the vertical parabolic signal to which the vertical transistor is applied is a form in which a normal vertical parabola signal is inverted, and the inverted form on the secondary side of the SMPS transformer The reverted waveform of the vertical parabolic signal of appears. The inverted parabola signal waveform is discharged after being charged to the capacitor through the inductor by the switching action of the second transistor in which the horizontal drive potential is applied to the base through the primary side of the flyback transformer and the primary side of the pin compensation transformer. The high-voltage fluctuation of the capacitor's charge potential is induced on the secondary side of the pin compensation transformer so that the pintion correction by the power supply is performed as a whole.

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

1 is a diagram showing a power-driven image distortion correction circuit according to a preferred embodiment of the present invention. In FIG. 2, the same components as those shown in FIG. 1 are denoted with the same reference numerals.

2, the primary side of the SMPS transformer 12 is connected to the rectifying unit 10 for rectifying commercial AC power applied to the television via one end of the smoothing capacitor 11, and the SMPS control unit 13 is connected to the primary side. The base of the switching transistor 14 to which the collector is connected is connected to the primary side of the SMPS transformer 12.

In addition, the SMPS controller 913 detects the level of the voltage induced on the secondary side of the SMPS transformer 12 and adjusts the voltage level induced from the primary side of the SMPS transformer 12 to the secondary side. The photocoupler 16 to which the electrostatic source Vcc is applied is connected via 15). The light emitting diode 16a of the photocoupler 16 is connected to the rear end of the rectifying diode 17 provided on the secondary side of the SMPS transformer 12, while the collector of the light receiving transistor 16b of the photocoupler 16 is connected. The side is connected to the resistor 15 and the emitter side is connected to the SMPS control unit 13.

In addition, at the rear end of the rectifying diode 17 connected to the secondary side of the SLMPS transformer 12, the primary side of the flyback transformer (FBT) 19 is connected via one end of the smoothing capacitor 18 and the flyback thereof. The secondary side of the transformer 19 is connected to the anode side of the CRT apparatus 21 via the high voltage diode 20.

In addition, a collector of the vertical transistor 42 is connected to the connection node between the light emitting diode 16a of the photocoupler 16 and the resistor 40 through the resistor 41, and the vertical transistor 42 of the vertical transistor 42 The normal vertical parabola waveform is applied to the base in an inverted state, and the emitter of the vertical transistor 42 belongs to the ground via the resistor 43.

A pin correction transformer 44 for attenuating high-voltage power supply fluctuations is connected between the secondary side of the SMPS transformer 12 and the primary side of the flyback transformer 19. The primary side of the pin correction transformer 44 is connected in series with the primary side of the flyback transformer 19, while the secondary side of the pin correction transformer 44 is connected to the SMPS transformer 12 via a resistor 45. Connected to bypass the high-pressure fluctuations that are induced on the secondary side of and transferred to the primary side of the flyback transformer 19.

In addition, a horizontal transistor 46 is connected to a primary side of a pin compensation transformer 44 connected in series with the flyback transformer 19 on the secondary side of the horizontal drive transformer 22 to which the horizontal drive signal is applied to the primary side. Is connected to the collector of the transistor 46, and the inverted reverse direction diode 47, the capacitor 48, and the inductor 49 and the charging capacitor 50 in series connection are connected.

According to the above configuration, the commercial AC power is rectified in the rectifier 10 and applied to the primary side of the SMPS transformer 12 in a level smoothed state by the smoothing capacitor 11, and in the SMPS control unit 13 An SMPS switching signal is applied to the base of the switching transistor 14 to cause the voltage to be induced from the primary side to the secondary side of the SMPS transformer 12. Therefore, when the switching transistor 14 switches by the SMPS switching signal, an SMPS current flows intermittently to the primary side of the SMPS transformer 12, and accordingly, a voltage is supplied to the secondary side of the SMPS transformer 12. This is induced and transferred to the primary side of the flyback transformer 19 through the rectifying diode 17 and the smoothing capacitor 18.

Then, the potential of the secondary induced voltage of the SMPS transformer 12 appearing at the rear end of the rectifying diode 17 is applied to the light emitting diode 16a of the photocoupler 16 so that the light emitting diode 16a is turned on. And an optical signal of the light emitting diode 16a is transmitted to the base of the light receiving transistor 16b of the photocoupler 16, and thus an electrostatic source through the resistor 15 based on the light receiving amount of the light receiving transistor 16b. A level of (Vcc) is applied to the SMPS control unit 13 to be applied to the duty ratio conversion of the SMPS switching signal applied to the switching transistor 14.

On the other hand, the normal vertical parabola waveform is applied to the base of the vertical transistor 42 connected between the light emitting diode 16a of the photocoupler 16 and the resistor 40 so that the light emitting diode ( The light emitting operation of 16a) is performed based on the signal of the inverted vertical parabola waveform, and the vertical parabola waveform is reversed on the secondary side of the SMPS transformer 12 by the light emitting control action of the light emitting diode 16a. In the form of a waveform, the waveform rises more.

A horizontal transistor 46 whose base is connected to the secondary side of the horizontal drive transformer 22 through the primary side of the flyback transformer 19 and the primary side of the pin compensation transformer 44 of the vertical parabolic waveform potential signal. ) And the capacitor 50 is charged / discharged through the inductor 49 through the switching timing of the horizontal transistor 46. Here, when the potential to be charged in the charging capacitor 50 is increased by the potential appearing on the secondary side of the SMPS transformer 12, since the voltage portion induced on the secondary side of the pin correction transformer 44 is generated, eventually The high-pressure fluctuation is attenuated by the singer pin correction transformer 44 so that pin cushion correction is possible even if a separate pin cushion correction circuit is not provided.

As described above, according to the power-driven image distortion correction circuit according to the present invention, the pincushion correction is performed by enabling the attenuation of the high-voltage variation by the action of the pin correction transformer connected to the primary side of the flyback transformer. Since this is done in a manner, there is an advantage that the need for a separate pincushion correction circuit is unnecessary.

Claims (2)

SMPS control means 13 for duty conversion control of the AC-DC converted power by the rectifying means 10 by the switching mode, the transistor 14 switched by the SMPS control means 12, and the transistor 14 Photocouplers for photoelectric detection of the SMPS transformer 12 in which the power supply on the primary side is induced to the secondary side and the potential induced on the secondary side of the SMPS transformer 12 are applied to the SMPS control means 13 by a switching action. (16), a horizontal drive transformer for driving the horizontal deflection of the flyback transformer 19 and the CRT apparatus 21 which generate the driving voltage of the CRT apparatus 21 by the secondary potential of the SMPS transformer 12; In the video system of a television comprising the 22, the collector of the vertical transistor 42, to which the vertical parabolic signal waveform is applied to the base, is connected to the light emitting element 16a side of the photocoupler 16 through the resistor 41. Connected to the secondary side of the SMPS transformer 12 and the plastic A pin compensation transformer 44 is connected between the primary sides of the back transformer 19 so as to reduce the change in potential so that pin correction can be performed, and the horizontal drive transformer (base) is connected to the base of the pin correction transformer 44 at the primary side. And the inductor (49) and the capacitor (50) are connected to the collector side of the horizontal transistor (46) to which the secondary side of the (22) is connected. 2. The flyback of claim 1, wherein the pin compensation transformer 44 has its primary side connected to the primary side of the flyback transformer 19 and its secondary side connected to the secondary side of the SMPS transformer 22. A power supply type image distortion correction circuit, characterized in that the variation of the potential applied to the primary side of the back transformer (19) is induced and attenuated to the secondary side.