KR0140287B1 - A pin cushion compensating circuit of a monitor - Google Patents

Abstract

The present invention relates to a pincushion correction circuit of a monitor that can correct a pincushion phenomenon appearing up, down, left, and right in a straight line when displaying a monitor screen. A monitor comprising a deflection circuit and a pincushion correction circuit connected to one end of the horizontal deflection circuit and correcting a pincushion phenomenon appearing on the screen in a linear form when the monitor screen is displayed, wherein the pincushion correction circuit generates a PWM purse. A vertical signal mixing PWM pulse generator 1, an inverting and amplifying unit 2 for sine amplifying and inverting the output pulse of the PWM pulses, and an inverting and amplifying unit 2 The buffer unit 3 for correcting the impedance by buffering the pulse signal amplified to a level and the output signal of the buffer unit 3 is inverted. The key comprises an inverting portion 4.

Description

Monitor Pincushion Correction Circuit

1 is a pin cushion correction circuit diagram of a conventional monitor

2 is a pincushion correction circuit diagram of a monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

1: PWM pulse generator 2: inverting and amplifying unit

3: Buffer part 4: Inverted part

20: horizontal deflection circuit 21: voltage distribution unit

22: sinusoidal section 30: pin cushion correction circuit

Q11-Q13: Transistor Q14: FET

R11-R16: Resistor C11: Capacitor

The present invention relates to a monitor, and more particularly, to a pincushion correction circuit of a monitor, which is capable of linearly adjusting a distorted phenomenon (pin cushion phenomenon) appearing on the screen when the monitor screen is displayed.

In general, since the fluorescent surface of the monitor tube is not a spherical surface centered on the deflection point of the electron beam, the distance from the deflection point becomes farther toward the periphery. Because of this, when the electron beam is deflected, the deflection of the four corners at the farthest distance increases, causing the raster to appear as a distortion of the shape.

This is commonly referred to as distortion, and the amount of distortion is higher in water pipes with a large deflection angle. In this case, the sensory distortion is corrected by changing the current flowing through the deflection coil according to the deflection of the electron beam. This circuit is called a distortion distortion correction circuit, and there are circuits for correcting up and down distortion and circuits for correcting left and right distortion.

Here, it can be considered that the distortion of the upper and lower sides is insufficient as the amplitude of the upper and lower rasters is in the middle part. Therefore, in order to correct this problem, a correction current is caused to flow in the vertical deflection coil by an amplitude deficiency.

In addition, the distortion of the left and right realization is insufficient as the amplitude of the left and right of the raster in the center of the screen. To correct this, the amplitude of the horizontal deflection current is modulated to a parabola type in the vertical scanning period.

The pincushion correction circuit 10 as shown in FIG. 1 for correcting the distortion of the left and right of a conventional monitor screen includes a horizontal and vertical signal mixed PWM pulse generator 1 for generating a PWM pulse, and a signal from the PWM pulse generator 1. A resistor R1 for limiting the current flow, a transistor Q1 switched on / off according to the signal level generated from the PWM pulse generator 1, and an output terminal of the transistor Q1 to distribute the voltage. The resistor R2 (R3) and the impedance coil L1 connected to the output terminal of the said resistor R2 (R3) were comprised.

In addition, the conventional pincushion correction circuit 10 includes a transistor Q2, a capacitor C1-C4, a diode D1 (D2), a resistor R4 (R5), a coil L2 (L3), and a high voltage. A generator T is connected to one end of the horizontal deflection circuit 20 for deflecting and displaying the horizontal drive signal inputted on the screen.

That is, the conventional pincushion correction circuit 10 is connected to the horizontal deflection circuit 20 and serves to display a rectangular screen by correcting the pincushion generated from the horizontal deflection circuit 20.

In more detail, the horizontal drive signal through the horizontal drive transformer switches the transistor Q2 of the horizontal deflection circuit 20, and the damper diode D1, the modulation diode D2, the capacitor C2, C3, and the like. Drives the horizontal deflection coil L3 with sawtooth current through which the collector current increases linearly through the deflection yoke when current begins to flow in the base of transistor Q2.

However, when only the horizontal deflection circuit 20 operates, the pincushion phenomenon occurs due to a portion of which the current is slightly compensated and the portion of which the current is compensated a lot on the left and right sides of the screen. By using the pincushion correction circuit 10 to compensate for the energy of the current in the upper and lower portions of the display screen it was possible to display a rectangular screen.

However, in the conventional pincushion correction circuit 10, the level of the signal from the horizontal and vertical signal mixed PWM pulse generator 1 is low, and the impedance compensation is not good. Since distortion occurs at the corners of the screen, there is a problem that the performance of the image quality is degraded and the function is impaired.

In order to solve this problem, increasing the value of the coil (L1), resistance (R2) (R3) to increase the impedance value can reduce the size of the screen gradually to prevent distortion, but using this method There was a problem of shrinking.

The present invention is to solve such a conventional problem, the pincushion correction circuit of the monitor that can compensate for the pincushion phenomenon caused by the portion of the current is slightly compensated and the portion of the current is compensated a lot on the left and right sides of the monitor screen display The purpose is to provide.

It is another object of the present invention to provide a pincushion correction circuit for a monitor that can straighten the distortion caused by the corner portion of the screen when adjusting the size of the screen by an external adjustment stage.

In order to achieve the above object, the present invention provides a horizontal deflection circuit for deflecting an input horizontal drive signal and displaying it on a screen, and a distortion phenomenon appearing at a corner portion of the screen when the monitor screen is displayed by being connected to one end of the horizontal deflection circuit. It is characterized by including a pincushion correction circuit for correcting.

The pincushion correction circuit includes a horizontal vertical signal mixed PWM pulse generator for generating a PWM pulse, an inverting and amplifying unit for sine, amplifying and inverting an output pulse of the PWM pulse generator, and a predetermined level by the inverting and amplifying unit. And a buffer unit for correcting impedance by buffering the amplified pulse signal and an inverting unit for inverting the output signal of the buffer unit.

Hereinafter, an embodiment of the pincushion correction circuit of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of the present invention with transistors Q2, capacitors C1-C4, diodes D1 (D2), resistors R4 (R5), coils L2 (L3), and high voltage generators (T). A horizontal deflection circuit 20 configured to deflect the horizontal drive signal inputted on the screen and display the screen on the screen, and to straighten the distortion occurring at the corners of the screen when the monitor screen is displayed by being connected to one end of the horizontal deflection circuit 20. The pin cushion correction circuit 30 is provided.

In addition, the pincushion correction circuit 30 sine the horizontal and vertical signal mixed PWM pulse generator 1 for generating a PWM pulse, the output pulse of the PWM pulse generator 1, and amplifies and inverts the amplification unit 2 and A buffer unit 3 for correcting impedance by buffering a pulse signal amplified by the inverting and amplifying unit 2 to a predetermined level, and an inverting unit 4 for inverting an output signal of the buffer unit 3 It is configured to include.

In addition, the inverting and amplifying unit 2 includes a voltage divider 21 for distributing the output voltage of the PWM pulse generator 1 and a sine portion 22 for sine of the voltage divided by the voltage divider 21. ), A transistor Q11 for generating a signal generated by the sinusoidal part 22 and then amplifying the signal to a predetermined level, and a resistor R14 for supplying a bias current to the transistor Q11.

The buffer unit 3 is connected to an output terminal of the transistor Q11 to be switched on / off by a resistor R15 for biasing a current and a current biased by the resistor R15. It consists of (Q12) (Q13).

In addition, the inverting unit 4 includes a FET Q14 for inverting the output signal of the buffer unit 3, and a resistor connected between the gate of the FET Q14 and the output terminal of the transistors Q12 and Q13. R16).

According to the present invention configured as described above, the signal output from the PWM pulse generator 1 is distributed by the resistors R11 and R12 of the voltage divider 21, and sine by the sine 22 to the transistor Q11. Is entered.

Accordingly, the signal input to the transistor Q11 is inverted and then amplified to a predetermined level to be buffered by the transistors Q12 and Q13 through the resistor R15 of the buffer unit 3 to compensate for the impedance.

In this way, the buffered signal through the buffer unit 3 is inverted through the resistor R16 and the FET Q14 of the inverter 4, and then the capacitor C1 and coil C1 of the horizontal deflection circuit 20 It is input through the contact of the coil L2.

On the other hand, the horizontal drive signal input to the base of the transistor (Q2) of the horizontal deflection circuit 20 is sine by the capacitor (C4) and the resistor (R4) (R5) and then the switching operation through the transistor (Q2) to the horizontal It transfers the energy of the deflection coil L3 and the high pressure generator T1.

Here, the transfer of energy is generated by the resonant frequency of the coil L2 and the capacitor C3 and the resonant frequency of the coil L3 and the capacitor C1. The basic operation at this time is the switching period of the transistor Q2. The energy of the capacitors C2 and C3 is charged and discharged during this time.

That is, when the horizontal deflection circuit 20 operates, the energy compensation of the deflection center portion of the monitor screen is performed by the operation of the pincushion correction circuit 30, as well as the distortion at the corners of the screen is compensated for. You can get it.

As described above, the present invention can correct a pincushion caused by a portion of which a current is slightly compensated and a portion of which a large amount of current is compensated at the left and right sides of the screen when displaying a monitor screen, and of course, an external adjustment stage. When adjusting, the distortion that occurs at the corners of the screen can be corrected in a straight line.

Claims (4)

A monitor comprising: a horizontal deflection circuit for deflecting an input horizontal drive signal to be displayed on a screen; and a pincushion correction circuit connected to one end of the horizontal deflection circuit to correct a pincushion phenomenon appearing on a screen when displaying a monitor screen. A horizontal and vertical signal mixing PWM pulse generator 1 for generating a PWM pulse by the pincushion correction circuit; an inverting and amplifying unit 2 for sine, amplifying and inverting an output pulse of the PWM pulse generator 1; A buffer unit 3 for buffering a pulse signal amplified to a predetermined level by the inverting and amplifying unit 2 to correct an impedance, and an inverting unit 4 for inverting an output signal of the buffer unit 3. Pincushion correction circuit of the monitor, characterized in that the configuration. 2. The voltage divider 21 according to claim 1, wherein the inverting and amplifying unit 2 divides the output voltage of the PWM pulse generator 1 and the voltage divided by the voltage divider 21. A sinusoidal portion 22, a transistor Q11 for inverting the signal sinused by the sinusoidal portion 22 and amplifying the signal to a predetermined level, and a resistor R14 for supplying a bias current to the transistor Q11. Pincushion correction circuit of the monitor, characterized in that the configuration. The switching circuit of claim 1, wherein the buffer part 3 is connected to an output terminal of the transistor Q11 and switched on by a resistor R15 for biasing a current and a current biased by the resistor R15. And a transistor (Q12) and (Q13) to be turned on / off. 2. The transistor (4) according to claim 1, wherein the inverting portion (4) is connected between a FET (Q14) for inverting the output signal of the buffer portion (3), a gate of the FET (Q14), and a transistor (Q12) (Q13). Pincushion correction circuit of the monitor, characterized in that it comprises a resistor (R16).