KR0120184B1 - Control device of an horizontal synchronizing signal - Google Patents

Abstract

Horizontal synchronous signal controller in order to protect the monitor and prevent the horizontal frequency from inputting except the permission value. The said controller consists of a amplification means, a differential means, a flatting means, a control signal outputting means and a switching means.

Description

Horizontal synchronous signal controller

1 is a diagram showing the configuration of a horizontal deflection circuit of a general monitor.

2 is a view showing the configuration of a horizontal synchronization signal control apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

10: amplification unit 20: shaping unit

30: smoothing part 40: control signal output part

50: switching unit 60: voltage controlled oscillator

70: horizontal deflection signal output section R11, R12, R21, R31, R41-R43: resistance

C21, C31: Capacitor Q11, Q41: Transistor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and more particularly, to a horizontal synchronizing signal control device capable of protecting a monitor by cutting off a horizontal synchronizing signal input in addition to the set mode of the monitor.

A horizontal deflection circuit of a general monitor is composed of a resistor Rt, a capacitor Ct, and a voltage controlled oscillator VCO, as shown in FIG. 1, and outputs a horizontal synchronizing signal outputted in a pulse form from the microprocessor 1. A voltage controlled oscillator 2 for converting Hs) into a horizontal frequency having a period determined by the resistor Rt and the capacitor Ct, and then outputting a horizontal deflection signal of a triangular waveform corresponding to the horizontal frequency; and the voltage controlled oscillator And a horizontal deflection signal output section 3 for shaping the horizontal deflection signal output from (2) and applying it to the high voltage transformer (FBT).

Here, the resistor Rt and the capacitor Ct are configured to be determined by a mode that varies according to the number of pixels of the monitor.

In the horizontal deflection circuit of the general monitor configured as described above, first, when the horizontal synchronization signal Hs in the form of pulse is input to the voltage controlled oscillator VCO of the voltage controlled oscillator 2 in the microprocessor 1, the resistance Rt and After being converted to the horizontal frequency determined by the capacitor Ct, the horizontal deflection signal of the triangular waveform corresponding to the horizontal frequency is output from the voltage controlled oscillator VCO.

At this time, the frequency is determined by the resistance Rt and the capacitor Ct determined by the mode converted by the number of pixels of the monitor.

The horizontal deflection signal of the triangular waveform output from the voltage controlled oscillator 2 is applied to the horizontal signal output unit 3, shaped, and then applied to the high voltage transformer FBT.

In the horizontal deflection circuit of the general monitor as described above, the mode of the monitor is switched to the horizontal frequency. When a horizontal frequency other than the horizontal frequency that the monitor can process is input, the screen is out of sync and the parts are damaged, resulting in a high reliability of the product. There was a problem falling.

Accordingly, an object of the present invention is to solve such a problem, and an object of the present invention is to increase the image quality by blocking the output of the horizontal synchronizing signal when a horizontal synchronizing signal equal to or greater than the horizontal synchronizing signal determined by the monitor specification is input. It is intended to provide a horizontal synchronization signal control principle that can improve the reliability of the product.

An object of the present invention is to provide a horizontal deflection circuit for converting an input pulse type horizontal synchronizing signal into a triangular waveform horizontal deflection signal, and outputting the horizontal synchronizing signal of an input pulse type in the amplifying means and the amplifying means. Smoothing means for smoothing the signal output from the shaping means for differentiating the output signal and converting it into a DC component, control signal output means switched by the voltage output from the smoothing means, and control output from the control signal output means. It can be achieved by providing a horizontal synchronization signal control device characterized in that it further comprises a switching means for controlling the output of the horizontal synchronization signal input by the signal.

Hereinafter, an embodiment of a horizontal synchronization signal control apparatus according to the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view showing the configuration of a horizontal synchronization signal control device according to the present invention, as shown in this, amplifying unit 10 for amplifying the horizontal synchronization signal (Hs) of the pulse form output from the microprocessor (Mic) And a shaping unit 20 for differentiating the signal output from the amplifier 10, a smoothing unit 30 for smoothing the signal output from the shaping unit 20 and converting the signal into a direct current component, and the smoothing unit. A control signal output unit 40 switched by the voltage output from the control unit 30 and a switch configured to control the output of the horizontal synchronization signal input by the control signal output from the control signal output unit 40. The unit 50 includes a resistor Rt, a capacitor Ct, and a voltage controlled oscillator VCO. The resistor 50 includes a resistor Rt and a capacitor Ct. Convert to horizontal frequency with period determined by After the input, the voltage controlled oscillator 60 outputs a horizontal deflection signal having a triangular waveform corresponding to the horizontal frequency, and the horizontal deflection signal output from the voltage controlled oscillator 60 is shaped and applied to the high voltage transformer FBT. The horizontal deflection signal output unit 70 is configured.

Here, the amplifier 10 controls the resistor R11 for bypassing the input horizontal synchronizing signal, the transistor Q11 switched by the output voltage of the resistor R11, and the current of the transistor Q11. It consists of a resistor R12.

In addition, the shaping unit 20 is composed of a resistor (R21) and a capacitor (C21) to differentiate the output signal of the medium width portion 10, the smoothing portion 30 is connected to the resistor (R21) and the capacitor (C21) And a resistor R31 and a capacitor C31 for smoothing and then smoothing the differential signal.

On the other hand, the control signal output unit 40 is divided by the resistors R41 and R42 to which the output voltage of the capacitor C31 of the smoothing unit 30 is distributed and the voltages distributed to the resistors R41 and R42. A transistor Q41 to be switched and a resistor R43 for driving the transistor Q41 are configured, and the resistor R42 is configured as a variable resistor to change a horizontal synchronizing signal according to a mode.

In the horizontal synchronizing signal control device according to the present invention configured as described above, first, the pulse-like horizontal synchronizing signal Hs output from the microprocessor Mic is transmitted through the resistor R11 of the amplifier 10. Is applied to the base axis of.

That is, the horizontal synchronizing signal applied to the base side surface of the transistor Q11 is output after being amplified by the current amplification factor of the resistor R12 and the transistor Q11, and the signal output from the transistor Q11 is a shaping unit. Differential is made by the capacitor C21 and the resistor R21 of (20).

The signal differentiated by the shaping unit 20 is applied to the resistor R31 and the capacitor C31 of the smoothing unit 30, bypassed, and smoothed to be converted into a DC component.

The voltage smoothed by the capacitor C31 of the smoothing unit 30 is distributed by the resistors R41 and R42 of the control signal output unit 40 and then the divided voltage is applied to the transistor Q41.

At this time, transistor Q41 is switched by the divided voltage of resistors R41 and R42, and if the voltage divided by resistors R41 and R42 is a horizontal synchronizing signal determined by the mode, the transistor is in a high potential state. Applied to Q41, transistor Q41 is switched to the on state, and a control signal in a low potential state is output by the switching operation of transistor Q41.

However, if the voltage divided by the resistors R41 and R42 is not the horizontal synchronization signal determined by the mode, it is applied to the transistor Q41 in a low potential state so that the transistor Q41 is sketched in a turn-off state, and the transistor By the switching operation (Q41), a control signal in a high potential state is output.

When the control signal output from the transistor Q41 is in the low potential state, the switch of the switching unit 50 is connected, and the horizontal synchronizing signal output from the microprocessor Mic is applied to the voltage controlled oscillator 60.

That is, when the pulse-like horizontal synchronizing signal Hs is input to the voltage controlled oscillator VCO of the voltage controlled oscillator 60 in the microprocessor Mic, the horizontal frequency determined by the resistor Rt and the capacitor Ct is used. After the conversion, the horizontal deflection signal of the triangular waveform corresponding to the horizontal frequency is output from the residual pressure control oscillator VCO.

At this time, the frequency is determined by the resistance Rt and the capacitor Ct determined by the mode converted by the number of pixels of the monitor.

The horizontal deflection signal of the triangular waveform output from the voltage controlled oscillator 60 is applied to the horizontal deflection signal output unit 70 and shaped and then applied to the high voltage transformer FBT.

However, when the control signal output from the transistor Q41 is in the high potential state, since the switch of the switching unit 50 is not connected, the horizontal synchronizing signal output from the microprocessor Mic is transmitted to the voltage control oscillator 60. Not authorized

As described above, the horizontal synchronizing signal control apparatus according to the present invention, when the horizontal synchronizing signal allowed by the mode is applied to the voltage control oscillation unit through the switching unit to output the horizontal deflection signal, and the disallowed horizontal synchronizing signal is inputted. Since the horizontal synchronizing signal is not applied to the voltage controlled oscillator by the switching unit, there is an effect of reducing damage to the product.

Claims (3)

A horizontal deflection circuit for converting an input pulse type horizontal synchronizing signal into a triangular waveform horizontal deflection signal, the horizontal deflection circuit comprising: amplifying means for amplifying an input pulse type horizontal synchronizing signal, and differentiating a signal output from the amplifying means; Shaping means; a smoothing means for smoothing the signal output from the shaping means and converting the signal into a direct current component; a control signal output means switched by a voltage output from the smoothing means; and a control output from the control signal output means. And a switching means for controlling the output of the horizontal synchronizing signal inputted by the signal. The transistor (Q41) of claim 1, wherein the control signal output means is switched by a resistor (R41) (R42) to which the output voltage of the smoothing means is divided and a divided voltage of the resistor (R41) (R42). And a resistor (R43) for driving the transistor (Q41). The horizontal synchronizing signal control device according to claim 2, wherein the resistor (R42) is made of a variable resistor so as to change the horizontal synchronizing signal according to a mode.