KR0130293Y1 - Automatic focus signal controlling circuit - Google Patents

Abstract

The present invention relates to a monitor, and more particularly, to an autofocus adjusting device that allows a user to freely adjust the focus according to the gain of a brightness signal, contrast, and video signal by adjusting the size of a parabola-type focus signal using a transistor. The present invention is such that the key input unit 5 for the user to operate the key, the microprocessor 10 for generating the scaling signal (Hdac) (Vdac) for adjusting the size of the focus signal, and the horizontal synchronization signal (Hs) And a focus signal generating circuit 20 for adjusting and outputting the magnitude of the focus signal generated according to the vertical synchronization signal Vs according to the scaling signal Hdac (Vdac) of the microprocessor 10 and the focus signal. Focus signal shaping and synthesizing section 30 for shaping and synthesizing the output signal of the generation circuit 20 and focusing for amplifying the output signal of the focus signal shaping and synthesizing section 30 and supplying it to the high voltage transformer (FBT). The signal output unit 40 is provided.

Description

Monitor auto focus

1 is a block diagram showing the configuration of a general automatic focusing apparatus.

2 is a detailed circuit diagram of FIG.

3 is a block diagram showing the configuration of the automatic focusing apparatus according to the present invention

4 is a detailed circuit diagram of FIG.

* Explanation of symbols for main parts of the drawings

10: microphone processor 20: focus signal adjustment circuit

21: focus signal generator 22: first size adjusting unit

23: second size adjustment unit 30: focus signal shaping and synthesis unit

40: focus signal output part R1-R6, Rin: resistance

Q1, Q2: Transistor

The present invention relates to a monitor, and more particularly, to an autofocus adjusting device of a monitor so that a user can freely adjust the focus depending on the gain of a brightness signal, contrast and video signal by a key operation.

As shown in FIG. 1, the focus adjusting apparatus used for a general monitor is a horizontal focus signal H and a vertical focus signal V in parabolic form from the input horizontal sync signal HS and the vertical sync signal VS. A focus signal generation circuit (1) for generating a signal, a focus signal shaping and synthesis section (2) for shaping an output signal of the focus signal generator (1), and then synthesizing a horizontal focus signal and a vertical focus signal; The focus signal generator 3 is amplified from the output signal of the signal generator 2 and supplied to the high voltage transformer PBT.

Here, the constant focus signal generating circuit 1 is a horizontal focus signal H and a vertical parabola type vertical focus signal HS and vertical sync signal VS as shown in FIG. 2. A focus signal generator IC for generating a focus signal V and resistors R1 and R2 for determining the magnitude of the horizontal focus signal and the vertical focus signal generated by the focus signal generator IC, respectively. do.

In the automatic focus adjusting device of the monitor, the horizontal sync signal HS and the vertical sync signal VS, which are input differently according to the mode of the monitor, are first focused on the focus signal generator IC of the focus signal generator 1. ) Is applied to generate a horizontal focus signal (H) and a vertical focus signal (V) in the form of parabola, and the magnitude of the horizontal focus signal (H) and the vertical focus signal (V) in the form of parabola generated at that time is the resistance (R1). Determined by (R2).

The output signal of the focus signal generator IC is applied to the focus signal shaping and synthesizing unit 2, and then the horizontal focus signal and the vertical synchronization signal are synthesized, and the synthesized focus signal output unit 3 is synthesized. After amplified through, it is supplied to a high voltage transformer (FBT).

However, in the above-described focusing apparatus of a general monitor, when the gain of the brightness signal, the contrast, and the video signal is changed, a problem of deterioration of the image quality due to blurring of the focus often occurs.

Accordingly, the present invention provides an autofocus adjusting device that can raise the image quality by adjusting the focus of the user according to the brightness, contrast, video signal gain, etc. in order to solve the above problems. There is a purpose.

The purpose of the present invention is to adjust the size of the focus signal generated from the horizontal sync signal and the vertical sync signal in the automatic focus adjusting device for generating a parabola-type focus signal according to the input horizontal sync signal and vertical sync signal A focus signal generating circuit is provided to adjust a magnitude of a focus signal generated according to the horizontal synchronization signal and the vertical synchronization signal according to the scaling signal.

On the basis of the accompanying drawings, the automatic focusing device for the monitor according to the present invention will be described in more detail.

Figure 3 and Figure 4 is a view showing the configuration of the automatic focusing device of the monitor according to the present invention, for example, a plurality of menu control keys (menu selection key, cursor key, data input keys) installed at the bottom of the front panel When the focus data input is made by the key input section 5 consisting of the key input section 5 and the menu selection key operation of the key input section 5, a scale signal Hdac (Vdac) for adjusting the magnitude of the focus signal is generated. The microprocessor 10 controls the OSD to be displayed on the screen by outputting a corresponding OSD signal according to a menu adjustment key input to a video processor, and the horizontal synchronous signal HS and the vertical synchronous signal Vs. A focus signal generation circuit 20 for adjusting and outputting the magnitude of the focus signal generated according to the scaling signal Hdac Vdac of the microprocessor 10 and an output signal of the focus signal generation circuit 20. Orthopedic After amplifying the output signal of the focal signal shaping and combining unit 30 for synthesizing the focus signal it is provided to the output section 40 to be supplied to the high-voltage transformer (FBT).

In this case, the microprocessor 10 is configured to adjust a user's selection of a focus that varies according to the brightness signal, the contrast, and the gain of the video signal.

Then, the microprocessor 10 uses different potential values in the range of 0-5V as the scaling signal Hdac (Vdac) according to the focus signal data inputted by the user through menu adjustment key manipulation of the key input unit 5. Output

In addition, as shown in FIG. 4, the focus signal generating circuit 20 focuses on generating a parabola-type horizontal focus signal and a vertical focus signal by the horizontal sync signal Hs and the vertical sync signal Vs, respectively. A first size adjusting unit for adjusting the size of the focus signal output from the signal generator 21 and the focus signal generator 21 according to the scale signal Hdac (Vdac) output from the microprocessor 10 ( 22) and a second size adjustment unit 23 is provided.

The first size adjusting unit 22 includes a resistor R1 for biasing the scaling signal Hdac of the microprocessor 10, a transistor Q1 for switching in accordance with an output signal of the resistor R1, and The resistor R2 protects the transistor Q1, and the resistor R3 stabilizes the output signal of the transistor Q1. The second size adjusting unit 23 also includes a size first size adjusting unit 23; Similarly, resistors R4-R6 and transistor Q2 are provided.

Herein, the reference numeral Rin is a resistor for adjusting the size of the vertical focus signal when the scaling signal Vdac is not supplied.

In the automatic focus adjusting device according to the present invention made in this way, the horizontal synchronization signal (Hs) and vertical synchronization signal (Vs) that is input first is supplied to the focus signal generator 21 of the automatic focus control circuit 20 is parabola form The horizontal focus signal and the vertical focus signal are generated.

On the other hand, when the user adjusts the key according to the gain of the brightness signal, the contrast and the video signal, the scaling signal Hdac (Vdac) is output from the microprocessor 10, respectively, and the size of the microprocessor 10 is adjusted. The adjustment signal Hdac is supplied to the first size adjustment unit 22 of the eye focus signal generation circuit 20.

Since the scale signal Hdac is supplied to the transistor Q1 through the resistor R1, the output signal of the transistor Q1 is varied according to the output signal of the resistor R1.

The output signal of the transistor Q1 is supplied to the focus signal generator 21 to adjust the magnitude of the horizontal focus signal.

On the other hand, the magnitude adjusting signal Vdac of the microprocessor 10 is supplied to the second size adjusting unit 23 of the focus signal generating circuit 20.

Since the scale signal Vdac is supplied to the transistor Q2 through the resistor R4, the output signal of the transistor Q2 is varied according to the output signal of the resistor R4.

The output signal of the transistor Q2 is supplied to the focus signal generator 21 to adjust the magnitude of the focused signal.

The output signal of the focus signal generator 21 is supplied to the focus signal shaping and synthesizing unit 30 to be shaped, and then the horizontal focus signal and the vertical focus signal are synthesized, and the output of the focus signal shaping and synthesizing unit 30 is output. The signal is supplied to the focus signal output unit 40 and amplified and then supplied to the high voltage transformer FBT.

As described above, the automatic focusing apparatus according to the present invention has an effect of increasing the image quality by automatically adjusting the focus signal that is variable according to the brightness signal, the contrast, the gain of the video signal, and the like.

Claims (1)

A monitor adjusting apparatus for generating a parabola-type focus signal according to an input horizontal sync signal HS and a vertical sync signal Vs, wherein the focus generated from the horizontal sync signal HS and the vertical sync signal Vs A microprocessor (10) for generating a scaling signal (Hdac) Vdac for adjusting the signal magnitude; A focus signal generator 21 for generating a parabola-type horizontal focus signal and a vertical focus signal by the horizontal sync signal HS and the vertical sync signal Vs output from the microprocessor 10, respectively. A resistor R1 for biasing the scaling signal Hdac of (10), a transistor Q1 for switching in accordance with the output signal of the resistor R1, a resistor R2 for protecting the transistor Q1, and the transistor ( A resistor (R3) for stabilizing the output signal of Q1) to adjust the scaling signal (Hdac), the first size adjusting unit 22, and the resistor (Bd) biasing the scaling signal (Vdac) of the microprocessor ( R4), transistor Q2 for switching according to the output signal of this resistor R4, resistor R5 for protecting transistor Q2, resistor R6 for stabilizing the output signal of transistor Q1, and the micro Resizing signal from processor 10 When the (Vdac) is not supplied is provided with a focus signal generation circuit 20 consisting of a resistor (Rin) for adjusting the size of the focus signal, consisting of a second size adjusting unit 23 for adjusting the scaling signal (Vdac) A monitor's autofocus control system.