KR0130157B1 - Free running frequency control circuit of a monitor - Google Patents

Abstract

The circuit for getting high quality image by changing free running frequency during input period of non -horizontal synchronous signal at mode switching time includes a generator(10) providing free running frequency with input vertical synchronous circuit, a voltage controller(20) providing saw wave type vertical deflection signal, and a circuit(30) amplifying the vertical deflection signal. The vertical deflection signal is converted from the pulse type vertical synchronous signal.

Description

Monitor's free running frequency control circuit

1 is a view showing the configuration of a vertical deflection circuit of a general monitor.

2 is a view showing the configuration of the vertical deflection circuit of the monitor according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: free running frequency generator 11: switching unit

12: shaping part 13: free running frequency amplifier

20: voltage control unit 30: vertical deflection output

R11-R13, R21, R31-33: Resistor Q11: Transistor

C21: Capacitor OP31: Amplifier

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, and more particularly, to a free running frequency control circuit of a monitor capable of realizing high image quality by changing a free-running frequency generated while there is no horizontal synchronizing signal input during mode switching.

As shown in FIG. 1, a vertical deflection circuit of a general monitor includes a resistor R1, a capacitor C1, and a voltage controlled oscillator VCO. The voltage control unit 1 generating the vertical deflection signal and the vertical deflection output unit 2 amplifying the triangular waveform output from the voltage controlled oscillator VCO of the voltage control unit 1 and flowing a large current to the vertical deflection coil. It consists of.

In the vertical deflection circuit of a general monitor configured as described above, first, when the vertical synchronizing signal Vs of pulse equilibrium is output from the main board not shown in the drawing, the vertical synchronizing signal Vs is the voltage of the voltage controller 1. Applied to the control oscillator (VCO).

At this time, the vertical synchronization signal VS is applied to the voltage controlled oscillator VCO to output a vertical deflection signal of a triangular waveform in accordance with the vertical frequency oscillated by the resistor R1 and the capacitor C1.

As described above, the vertical deflection signal of the triangular waveform output from the voltage controller 1 is amplified through the vertical deflection output unit 2 and applied to the vertical deflection.

On the other hand, if there is no vertical synchronizing signal Vs input when the mode is switched, only the resistor R1 and the capacitor C1 of the voltage control unit 1 are oscillated, so that the resistor R1 and the capacitor C1 are set to a specific value. A triangular waveform vertical deflection signal is generated by a free running frequency having a vertical frequency period.

As described above, in the general monitor, the vertical frequency input to increase the image quality of the general monitor is increased, but since the free running frequency is fixed, there is a problem that the high-performance monitor cannot be designed because the vertical frequency cannot be increased indefinitely.

Therefore, the present invention is to solve such a problem, an object of the present invention is to increase the free running frequency, the free running frequency of the monitor that can increase the image quality of the monitor by increasing the vertical frequency due to the free running frequency increase By providing a control circuit.

The object of the present invention as described above is switching in the vertical deflection circuit of the monitor outputted by converting the pulse type vertical synchronization signal of the triangular waveform in accordance with the vertical frequency at the time of mode switching, switching switching the input synchronization signal Means, an shaping means for integrating the voltage output from the switching means, and a free running frequency amplifying means for amplifying the difference between the voltage output from the shaping means and the output voltage to increase the free running frequency. Can be achieved by providing a free running frequency control circuit.

Hereinafter, an embodiment of a free running frequency control circuit of a monitor according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing the configuration of a free running frequency control circuit of a monitor according to the present invention. As shown in FIG. 2, a free running frequency generator 10 in which a free running frequency is generated by an input vertical synchronization signal, A voltage control unit 20 configured as a voltage controlled oscillator (VCO) to convert a vertical sync signal of a pulse state into which a free running frequency output from the free running frequency generator 10 is applied is converted into a vertical deflection signal of a triangular waveform. ) And a vertical deflection output unit 30 for amplifying the vertical deflection signal output from the voltage control unit 20.

Here, the free running frequency generator 10 may include a switching unit 11 for switching an input vertical synchronization signal Vs, a shaping unit 12 for integrating a voltage output from the switching unit 11, and A free running frequency amplifier 13 amplifies the difference between the voltage output from the shaping unit 12 and the reference voltage V1 to increase the free running frequency.

The switching unit 11 includes a resistor R11 (R12) for distributing the input power Vcc and a transistor for outputting an input vertical synchronization signal switched by a divided voltage of the resistors R11 (R12) ( Q11) and a resistor R13 for controlling the current of the transistor Q11.

The shaping part 12 includes a resistor R21 and a capacitor C21 that integrate the output voltage of the transistor Q11 of the switching part 11.

The free running frequency amplifier 13 may include a resistor R31 for bypassing the voltage output from the shaping unit 12, a resistor R32 (R33) for distributing the output voltage Vo, and a resistor. And an amplifier OP31 that amplifies the difference between the voltage V1 distributed at R32 and R33 and the voltage Vs output from the resistor R31.

In the free running frequency control circuit of the monitor according to the present invention configured as described above, first, the input power source Vcc is distributed by the resistors R11 and R12 of the switching unit 11 and then the base of the transistor Q11. On the side, transistor Q11 is switched to the on state.

At that time, the vertical synchronizing signal Vs applied to the base side of the transistor Q11 is output from the emitter side of the transistor Q11 together with the power supply Vcc by the switching operation of the transistor Q11.

The output voltage of the transistor Q11 is integrated by the resistor R1 and the capacitor C11 of the shaping unit 12, and the integrated voltage of the resistor R21 and the capacitor C21 is a free running frequency amplifier. It is applied by the + terminal of the amplifier OP31 via the resistor R31 of (13).

On the other hand, the output voltage VO of the amplifier OP31 is applied to the negative terminal of the post amplifier OP31 distributed by the resistors R32 and R33 so that the output voltage Vs and the resistor R32 of the resistor R31 are applied. The difference of the divided voltage V1 of R33 is amplified. The amplification degree is then determined by the resistors R32 and R33.

In addition, the pulse type vertical synchronizing signal Vs is applied to the voltage controlled oscillator VCO of the voltage controller 20.

At this time, the vertical synchronization signal Vs is applied to the voltage controlled oscillator VCO to output a vertical deflection signal having a triangular waveform having a different frequency according to the free running voltage output from the free running frequency generator 10.

As described above, the vertical deflection signal of the triangular waveform output from the voltage control unit 20 is amplified through the vertical deflection output unit 30 and then applies a large current to the vertical deflection coil.

As described above, the free running frequency control circuit of the monitor according to the present invention has the effect of increasing the free running frequency, thereby increasing the vertical frequency and enabling high quality monitor design.

Claims (4)

A vertical deflection circuit of a monitor, in which a pulse-type vertical synchronization signal input at the time of mode switching is converted into a vertical deflection signal of a triangular waveform according to a vertical frequency and outputted, the switching means for switching an input vertical synchronization signal, and the switching means. A free running frequency control circuit comprising a shaping means for integrating the voltage output from the free running frequency and a free running frequency amplifying means for amplifying a difference in the output voltage to the voltage output from the shaping means to increase the free running frequency. . 2. The switching means according to claim 1, wherein the switching means outputs a vertical synchronizing signal which is switched and input by a resistor (R11) R12 for distributing the input power Vcc and a divided voltage of the resistors R11 (R12). And a transistor (Q11) and a resistor (R13) for controlling the current of the transistor (Q11), characterized in that the free running frequency control circuit of the monitor 3. The free running frequency control circuit of a monitor according to claim 2, wherein the shaping means comprises a resistor (R21) and a capacitor (C21) for integrating the output voltage to the transistor (Q11) of the switching means. The method of claim 3, wherein the free running frequency amplifying means comprises: a resistor (R31) for bypassing the voltage output from the shaping means, a resistor (R32) (R33) for distributing the free running frequency, and the resistor ( The free running frequency control circuit of the monitor, characterized in that the voltage V1 distributed at R32 (R33) consists of an amplifier OP31 which amplifies the difference between the voltage Vs output from the resistor R31.