KR100450387B1 - Apparatus for compensating vertical size in response to high voltage change, especially removing flicker of vertical screen size in response to illumination change of screen - Google Patents

Abstract

PURPOSE: An apparatus for compensating a vertical size in response to a high voltage change is provided to remove the flickering of the vertical screen size in response to the illumination change of the screen by compensating the vertical screen size. CONSTITUTION: An apparatus for compensating a vertical size in response to a high voltage change includes a vertical size adjustment key(100), a micro-controller unit(MCU)(200), a horizontal/vertically processor IC(300), a vertical output unit(400) and an FBT(500). The vertical size adjustment key outputs the vertical size adjustment signal. The MCU outputs the low control when the signal is a low frequency and outputs the high control signal when the signal is a high frequency. The horizontal/vertically processor IC outputs the vertical size change signal to adjust the vertical size of the monitor. The vertical output unit changes the vertical size of the monitor by receiving the vertical size change signal from the horizontal/vertical process IC. And, the FBT outputs the high voltage to the vertical/horizontal deflection circuit and the video circuit of the monitor.

Description

Vertical size compensation device according to high pressure change

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and in particular, to determine a high frequency and a low frequency through a horizontal synchronous signal, and to turn on / off a transistor Q1 according to the determination result, thereby horizontally / Vertical Processor By adjusting the feedback voltage applied to the integrated chip (hereinafter referred to as IC), it is possible to compensate the vertical screen size according to the change of the high voltage for each mode. It relates to a vertical size compensation device according to the high pressure change to make it possible.

In the conventional vertical size compensation device according to the high pressure change, as shown in FIG. 1, when the user adjusts the vertical size of the monitor (not shown) by manual operation, a vertical size adjustment key outputs a vertical size adjustment signal. 10; It is connected to the signal output terminal of the vertical size adjusting key 10, inputs a horizontal / vertical synchronization signal output from a personal computer (hereinafter referred to as a PC) to recognize an operating frequency mode, and the vertical size adjusting key ( 10) Main Control Unit (hereinafter referred to as MCU) that inputs the vertical size adjustment signal output from 10) and outputs the pulse width modulation after adjusting pulse width. .) 20; A resistor (R4) and a condenser (Cd) for rectifying the PWM pulse output from the MCU 20 to DC; A horizontal / vertical processor IC (30) for receiving a DC (direct current) voltage rectified by the resistor (R4) and a capacitor (C1) to output a vertical size conversion signal for adjusting the vertical size of the monitor; A vertical output unit 40 connected to the signal output terminal of the horizontal / vertical processor IC 30 to receive a vertical size conversion signal output from the horizontal / vertical processor IC 30 to convert the vertical size of the monitor; Wow; A FBT (Fly Back Transformer) 50 for outputting high voltage to the vertical / horizontal deflection circuit and the video circuit of the monitor; The vertical size of the monitor is connected between the input terminal of the horizontal / vertical processor IC 30 and the feedback terminal located at the input terminal of the FBT 50, when the anode high voltage, which is the output voltage of the FBT 50, is high. It is configured to include a resistor (R1) for compensating for the decrease in the number, and to compensate for the increase in the vertical size of the monitor when the anode high voltage, which is the output voltage of the FBT 50 is low.

That is, the operation of the vertical size compensation device according to the conventional high pressure will be described with reference to FIG. 1 as follows.

First, when the user adjusts the vertical size of the monitor by manual operation, the vertical size adjustment key 10 outputs a vertical size adjustment signal to the MCU 20, and the MCU 20 outputs the horizontal / Recognizes the operating frequency mode by inputting a vertical synchronization signal, inputs the vertical size adjustment signal output from the vertical size adjustment key 10, adjusts the PWM pulse width, and outputs the horizontal / vertical processor IC 30. do.

On the other hand, the resistor R4 and the capacitor C1 rectify the PWM pulse output from the MCU 20 to DC, and the horizontal / vertical processor IC 30 is driven by the resistor R4 and the capacitor C1. The DC voltage rectified by the DC is applied to output a vertical size conversion signal for adjusting the vertical size of the monitor to the vertical output unit 40.

In addition, the vertical output unit 40 receives the vertical size conversion signal output from the horizontal / vertical processor IC 30 to convert the vertical size of the monitor, and the FBT 50 controls the vertical / horizontal position of the monitor. High voltage is output to the deflection circuit and the video circuit.

In this case, the resistor R1 is connected between the input terminal of the horizontal / vertical processor IC 30 and the feedback terminal located at the input terminal of the FBT 50 so that the anode high voltage, which is the output voltage of the FBT 50, is high. Compensating for the reduction in the vertical size of the monitor, and serves to compensate for the increase in the vertical size of the monitor when the anode high voltage, which is the output voltage of the FBT 50, is low.

However, the vertical size compensation device according to the conventional high pressure change as described above, when the operating frequency range of the monitor is wide, for example, when the horizontal operating frequency is 30 ~ 70Hz, the screen brightness according to the mode of each operating frequency The difference in the high voltage is different due to the change, but the value of the compensation resistor (R1) is limited only to a certain mode, so that the vertical size compensation is not properly performed in other modes, which causes the vertical size to change without being constant. As a result, a phenomenon in which a screen is waved up and down occurs, and thus a user cannot see a clean screen.

The present invention is to solve the above problems, the MCU determines the high frequency and low frequency through the horizontal synchronization signal, and adjusts the feedback voltage applied to the horizontal / vertical processor IC according to the determination result It is to provide a vertical size compensation device according to the high pressure change to install (Q1), and to turn it on / off to compensate the vertical screen size according to the high pressure change for each mode.

In order to achieve the above object, the vertical size compensation device according to the high pressure change of the present invention includes a vertical size adjusting key for outputting a vertical size adjusting signal when the user adjusts the vertical size of the monitor by manual operation; Connected to a signal output terminal of the vertical size adjustment key, inputs a horizontal / vertical synchronization signal output from a PC to recognize an operating frequency mode, inputs a vertical size adjustment signal output from the vertical size adjustment key, and PWM pulse width MCU for outputting after adjusting the output signal, and outputs a low control signal at low frequency and a high control signal at high frequency by determining a mode through a horizontal synchronization signal; A resistor (R4) and a capacitor (C1) for rectifying the PWM pulse output from the MCU to DC; A horizontal / vertical processor IC for receiving a DC voltage rectified by the resistor R4 and a capacitor C1 and outputting a vertical size conversion signal for adjusting the vertical size of the monitor; A vertical output unit connected to a signal output terminal of the horizontal / vertical processor IC and receiving a vertical size conversion signal output from the horizontal / vertical processor IC to convert the vertical size of the monitor; FBT for outputting high voltage to the vertical / horizontal deflection circuit and the video circuit of the monitor; The base terminal is connected to the signal output terminal of the MCU, the emitter terminal is grounded, and the collector terminal is connected to the resistor R5, which is turned on by the high control signal output from the MCU, thereby feeding back through the resistor R5. A transistor Q1 for leaking a voltage; A feedback voltage connected between an input terminal of the horizontal / vertical processor IC and a feedback terminal positioned at an input terminal of the FBT, connected in parallel with a resistor R5, and applied through a feedback terminal when the transistor Q1 is turned off. To compensate for, it characterized in that it comprises a resistor (R2, R3) to be applied to the feedback voltage compensated by the horizontal / vertical processor IC.

1 is a functional block diagram showing the configuration of a vertical size compensation device according to a conventional high pressure change,

2 is a functional block diagram showing the configuration of a vertical size compensation device according to a high pressure change according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: vertical size adjustment key 200: MCU

300: horizontal / vertical processor IC 400: vertical output

500: FBT transistor: Q1

Resistance: R2, R3, R4, R5, R6, R7 Capacitor: C1

Hereinafter, the above-described contents will be described in detail through an embodiment according to the present invention.

As shown in FIG. 2, when the user adjusts the vertical size of the monitor by manual operation, the vertical size adjustment key 100 outputs a vertical size adjustment signal to the MCU 200 and the MCU 200. ) Inputs the horizontal / vertical synchronization signal output from the PC to recognize the operating frequency mode, inputs the vertical size adjustment signal output from the vertical size adjustment key 100, adjusts the PWM pulse width, and outputs the same. The mode is determined by the horizontal synchronization signal to output the low control signal to the base terminal of the transistor Q1 at a low frequency, and to output the high control signal to the base terminal of the transistor Q1 at a high frequency.

In addition, the resistor R4 and the capacitor C1 rectify the PWM pulse output from the MCU 200 into a DC, and then apply a DC voltage to the horizontal / vertical processor IC 300. The vertical processor IC 300 receives the DC voltage rectified by the resistor R4 and the condenser C1 and outputs a vertical size conversion signal to the vertical output unit 400 to adjust the vertical size of the monitor. do.

On the other hand, the vertical output unit 400 receives the vertical size conversion signal output from the horizontal / vertical processor IC 300 to convert the vertical size of the monitor, the FBT 500 is the vertical / horizontal monitor High voltage is output to the deflection circuit and the video circuit.

In addition, the transistor Q1 has a base terminal connected to the signal output terminal of the MCU 200, an emitter terminal connected to the ground, and a collector terminal connected to the resistor R5 to control the high output from the MCU 200. By being turned on by the signal, leakage of the feedback voltage through resistor R5 causes the compensated feedback voltage to be applied to the horizontal / vertical processor IC 300.

Meanwhile, the resistors R2 and R3 are connected between an input terminal of the horizontal / vertical processor IC 300 and a feedback terminal located at an input terminal of the FBT 500, and are connected in parallel with the resistor R5 to provide the transistor. When (Q1) is off, the present embodiment is configured by compensating the feedback voltage applied through the feedback terminal so that the compensated feedback voltage is applied to the horizontal / vertical processor IC 300.

Hereinafter, an operation process of the vertical size compensator according to the high pressure change configured as described above will be described with reference to FIG. 2.

First, when the user adjusts the vertical size of the monitor by the manual operation, the vertical size adjustment key 100 outputs the vertical size adjustment signal to the MCU 200.

Meanwhile, the MCU 200 recognizes an operating frequency mode by inputting a horizontal / vertical synchronization signal output from a PC, inputs a vertical size adjustment signal output from the vertical size adjustment key 100, and outputs a PWM pulse width. Output after adjusting.

In addition, the resistor R4 and the capacitor C1 rectify the PWM pulse output from the MCU 200 into a DC, and then apply a DC voltage to the horizontal / vertical processor IC 300. The vertical processor IC 300 receives the DC voltage rectified by the resistor R4 and the condenser C1 and outputs a vertical size conversion signal to the vertical output unit 400 to adjust the vertical size of the monitor. do.

The vertical output unit 400 receives a vertical size conversion signal output from the horizontal / vertical processor IC 300 to convert the vertical size of the monitor, and the FBT 500 vertically / horizontally monitors the vertical size. A high voltage is output to the deflection circuit and the video circuit.

At this time, the MCU 200 determines the mode through a horizontal synchronization signal and turns off the transistor Q1 by outputting a low control signal to the base terminal of the transistor Q1 at a low frequency, and a high control signal at a high frequency. Is output to the base terminal of the transistor Q1 to turn on the transistor Q1.

Meanwhile, a feedback voltage compensation operation applied to the horizontal / vertical processor IC 300 through a feedback terminal connected to the FBT 500 input unit will be described below.

First, the current flowing to the anode of the output terminal of the FBT 500 is changed according to the change in screen brightness. When the screen is dark, the amount of current decreases, and when the screen is bright, the amount of current increases, As a result, the anode voltage, which is the output voltage of the FBT 500, increases when the screen is dark, and decreases when the screen is bright.

In addition, the vertical screen size is reduced when the anode high pressure is high, the vertical screen size is increased when the anode high pressure is low, the voltage of the feedback terminal is dark, that is, the Ib current input to the FBT 500 is small High when flowing, and low when a lot of Ib current flows.

At this time, when the MCU 200 determines the mode to determine the low frequency, the transistor Q1 is turned off by the row control signal output from the MCU 200, and the feedback voltage applied through the feedback terminal is Corrected by the resistors R2 and R3.

On the other hand, for example, if the input terminal voltage of the vertical / horizontal processor IC 300 is adjusted to 3V, when the anode high voltage is high, that is, the Ib current is low, the 12V drop due to the resistors R6 and R7 is low. When the voltage becomes low and the feedback terminal voltage becomes about 5V, the resistors R2 and R3 correct the feedback voltage applied to the vertical / horizontal processor IC 300 to 3.2V, which is 0.2V higher.

In addition, the vertical / horizontal processor IC 300 receives a feedback voltage of 3.2V, which is increased by 0.2V, and outputs a converted signal to the vertical output unit 400 to reduce the vertical screen size, and the vertical output unit 400 A vertical screen size is reduced by inputting a conversion signal for reducing the vertical screen size output from the vertical / horizontal processor IC 300.

On the other hand, when the anode high voltage is low, that is, when the Ib current flows a lot and the 12V drop voltage due to the resistors R6 and R7 becomes high, and the feedback terminal voltage becomes about 2V, the resistors R2 and R3 are the vertical / horizontal processors. The feedback voltage applied to the IC 300 is corrected to 2.8V lowered by 0.2V and then applied.

In addition, the vertical / horizontal processor IC 300 receives a feedback voltage of 2.8V lowered by 0.2V and outputs a converted signal to the vertical output unit 400 to increase the vertical screen size, and the vertical output unit 400 The vertical screen size is increased by inputting a conversion signal for increasing the vertical screen size output from the vertical / horizontal processor IC 300.

On the other hand, when the MCU 200 determines the mode to determine the high frequency, the transistor Q1 is turned on by the high control signal output from the MCU 200 and the feedback voltage applied through the feedback terminal. By dropping the amount by resistor R5, the appropriate voltage dropped to the vertical / horizontal processor IC 300 is fed back.

In this case, when the mode is determined and determined to be a high frequency, the high voltage change is relatively small, so that the compensation voltage applied to the vertical / horizontal processor IC 300 becomes small, and the vertical / horizontal processor IC 300 is reduced. When the compensation voltage is applied to the steady state 3V, the compensation voltage is about 2.9V and 3.1V.

Accordingly, the MCU 200 determines a high frequency and a low frequency through a horizontal synchronization signal, and turns on / off the transistor Q1 according to the determination result to adjust a feedback voltage applied to the horizontal / vertical processor IC. In other words, it is to compensate the vertical screen size according to the high pressure change of all modes.

On the other hand, even when the frequency band continues to widen, by adding and controlling the transistors in parallel, it is possible to correct the vertical screen size according to the high voltage change of all modes.

As described above, the vertical size compensation device according to the high voltage change of the present invention determines a high frequency and a low frequency through a horizontal synchronous signal, and adjusts a feedback voltage applied to the horizontal / vertical processor IC according to the determination result. (Q1) is installed and turned on / off to compensate for vertical screen size according to the change of high voltage for each mode. It is effective in getting rid of it.

Claims (1)

A vertical size adjusting key for outputting a vertical size adjusting signal when the user adjusts the vertical size of the monitor by manual operation; Connected to a signal output terminal of the vertical size adjustment key, inputs a horizontal / vertical synchronization signal output from a PC to recognize an operating frequency mode, inputs a vertical size adjustment signal output from the vertical size adjustment key, and PWM pulse width MCU for outputting after adjusting the output signal, and outputs a low control signal at low frequency and a high control signal at high frequency by determining a mode through a horizontal synchronization signal; A resistor (R4) and a capacitor (C1) for rectifying the PWM pulse output from the MCU to DC; A horizontal / vertical processor IC for receiving a DC voltage rectified by the resistor R4 and a capacitor C1 and outputting a vertical size conversion signal for adjusting the vertical size of the monitor; A vertical output unit connected to a signal output terminal of the horizontal / vertical processor IC and receiving a vertical size conversion signal output from the horizontal / vertical processor IC to convert the vertical size of the monitor; FBT for outputting high voltage to the vertical / horizontal deflection circuit and the video circuit of the monitor; The base terminal is connected to the signal output terminal of the MCU, the emitter terminal is grounded, and the collector terminal is connected to the resistor R5, which is turned on by the high control signal output from the MCU, thereby feeding back through the resistor R5. A transistor Q1 for leaking a voltage; A feedback voltage connected between an input terminal of the horizontal / vertical processor IC and a feedback terminal positioned at an input terminal of the FBT, connected in parallel with a resistor R5, and applied through a feedback terminal when the transistor Q1 is turned off. Compensating the vertical size compensation device according to the high pressure change, characterized in that it comprises a resistor (R2, R3) to be applied to the feedback voltage compensated by the horizontal / vertical processor IC.

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