KR100253232B1 - Horizontal deflection linear control apparatus for television set - Google Patents

Abstract

PURPOSE: An apparatus for controlling a horizontal deflection linearity is to display a twin screen by controlling the twin screen using the linearity of the horizontal deflection, without losing the information on a primary and secondary screen. CONSTITUTION: A damper diode(D1,D2) is connected in parallel to a horizontal deflection coil to suppress a free vibration produced after a blanking period of a saw tooth current flowing through the deflection coil. A deflection yoke coil(Ldy) is coupled to a cathode ray tube to change a moving direction of an electron beam of the cathode ray tube. The first control unit(100) controls a left and right linearity of the horizontal deflection by varying a current according to the entire t. The second control unit(110) controls a center linearity of the horizontal deflection by varying a voltage of a capacitor(Cs2) according to a pulse change of a linearity voltage(Vcen). A pin cushion control unit(120) controls the distortion of an edge portion.

Description

Horizontal deflection linearity control device of TV receiver

The present invention relates to a horizontal deflection linearity control device of a TV receiver, and in particular, by controlling a twin picture screen using a horizontal deflection linearity in a TV receiver, when applied to an ordered integrated circuit capable of only a twin picture screen. The present invention relates to a horizontal deflection linearity control device of a TV receiver capable of transforming a screen (hereinafter referred to as a magic window function) and enabling display without loss of information of the main and sub screens.

When two screens are displayed at the same time, the aspect ratio can be adjusted by dividing the area of the twin picture screen by changing the horizontal position of the boundary of the two screens to change the aspect ratio. The other screen becomes relatively small.

1 is a block diagram illustrating a conventional signal processing unit. As shown in FIG. 1, a block having a frequency exceeding half of a sampling frequency included in an input analog signal or removing unnecessary noise to reproduce a correct analog waveform is shown in FIG. Lowpass filters 10, 11, and 12; An analog / digital converter (20, 21) for converting an input analog signal into a digital signal; First and second memories (30, 31) for storing the signal converted by the analog / digital converter (20, 21) and outputting the stored signal in synchronization with an input clock; A mixing unit 40 for mixing signals output from the first and second memories 30 and 31; A digital to analog converter 50 converts the digital signal mixed by the mixing unit 40 into an analog signal.

Fig. 2 is a circuit diagram showing the configuration of a conventional deflector, and as shown therein, damper diodes D1 and D2 placed in parallel in a deflection coil to suppress free vibration occurring after a return period of a sawtooth current flowing through a horizontal deflection coil. ; A deflection yoke coil (L _dy ) attached to the water pipe to change the electron beam traveling direction of the water _pipe ; The pincushion control unit 120 controls an edge portion of the optical image or the electronic image converted from the image of the subject to be misaligned.

Referring to the operation of the conventional device configured as described above are as follows.

압축(Decimation)하여 저장하며, 다음 수평축 시간에

시간을 주기로 주화면을 부르고, 나머지

시간을 주기로 부화면의 영상을 판독하는데(CLK1, CLK2 =

CLK3), 여기서 메직 윈도우는 주화면이나 부화면을 4:3의 가로세로비(aspect ratio)로 디스플레이하는 것으로, 판독 클럭을

으로 낮추면 되고(CLK3 =

CLK1, CLK2), 주화면을 4:3비율로 전체를 표시하고, 부화면을 4:3비율로 화면의 중앙만을 나타내는 경우에는 판독 클럭을

×기록 클럭의 비율로 주화면의 전영상신호에 대해서 메모리의 기록 및 판독을 인에이블(enable)시키면 되며, 부화면에 대해서는 화면의 중앙에 대해

비율로 기록 및 판독을 인에이블하면 된다.3 is a diagram illustrating a conventional 16: 9 wide TV twin screen and a magic window screen. As shown in FIG. 1, when a signal of two main screens and a sub-screen (CVBS) is input, a low pass filter 10 Block 11 having a frequency exceeding half of the sampling frequency included in the input analog signal, and the signal output from the low pass filter 10, 11 is converted by the analog / digital converter 20, 21. After each of the main screen and the sub-screen in the first and second memories 30 and 31

Compressed and saved, and at the next horizontal axis time

Call the main screen with time, and the rest

To read the sub-screen image at intervals (CLK1, CLK2 =

CLK3), where the magic window displays the main or sub picture at 4: 3 aspect ratio,

Lower (CLK3 =

CLK1, CLK2), when the main screen is displayed in full 4: 3 ratio and the sub-screen is only 4: 3 in the center, the readout clock

The recording and reading of the memory can be enabled for all video signals on the main screen at the ratio of the recording clock.

Simply enable write and read at a rate.

When the video signal is output from the first and second memories 30 and 31, the signal is mixed by the demultiplexer of the mixing unit 40, converted by the digital / analog converter 50, and then unnecessary by the low pass filter 12. The noise is removed and reproduced with the correct analog waveform and output.

Therefore, by changing the values of the control clocks CLK1, CLK2, and CLK3 input to the first and second memories 30 and 31 of FIG. 1, the screen ratio can be changed by changing the position of the boundary between the two screens. have.

Therefore, in the related art, the size of the screen is varied by changing the control clocks CLK1, CLK2 and CLK3 for reading or writing data in the first and second memories 30 and 31 in order to process the magic window. The change of the deflection part (not shown) is not used.

As described above, in the related art, the digital processing is performed up to the magic window function, so that the timing control for changing the aspect ratio is complicated. When the main screen or the sub screen is viewed in 4: 3 ratio, the other screen is displayed only at the center part. The left and right screens are cut and there is a problem that the magic window function cannot be used when applying the twin-screen ordered-young integrated circuit.

Therefore, the present invention was devised to solve the above-described problems, and by controlling the twin screen using the linearity of the horizontal deflection, it is possible to use the magic window function when the application of the twin-screen only ordered integrated circuit, An object of the present invention is to provide an apparatus for enabling display without loss of information of main and sub screens.

1 is a block diagram of a signal processing unit that implements a conventional digital magic window.

2 is a circuit diagram showing a configuration of a conventional deflector.

Figure 3 is an exemplary view showing a twin screen and a magic window screen of the conventional 16: 9 wide TV.

4 is a block diagram showing the configuration of a pincushion control unit in FIG.

Figure 5 is a block diagram showing the configuration of a horizontal linearity control device of the present invention TV receiver.

6 is a block diagram showing the configuration of a second control unit in FIG.

Figure 7 is an exemplary view showing a magic window screen to which the present invention is applied.

FIG. 8 is a graph illustrating waveforms of a first control unit in FIG. 5; FIG.

FIG. 9 is a graph showing waveforms of a second control unit in FIG. 5; FIG.

* Description of the symbols for the main parts of the drawings *

10, 11, 60: low pass filter 20: analog / digital (A / D) converter

30: first memory 31: second memory

40: mixing section 50: D / A converter

60: low pass filter 120: pincushion control unit

D1, D2: damper diode L _dy : deflection yoke coil

100: first control unit 110: second control unit

111: integrator 112: first comparator

113: second comparator

In order to achieve the above object, a configuration of a horizontal linearity control device of a television receiver includes: a damper diode placed in parallel in a deflection coil to suppress free vibration occurring after a return period of a sawtooth current flowing through a horizontal deflection coil; A deflection yoke coil attached to the water pipe to change the electron beam travel direction of the water pipe; A first controller for controlling left and right linearity of the horizontal deflection; A second controller for controlling the central linearity of the horizontal deflection; And a pincushion control unit for controlling the distortion of the image in the shape of a failure due to the edge portion of the optical image or the electronic image converted from the image of the subject.

The second control unit includes an integrator for integrating and outputting an input H_FBP signal; A first comparator for comparing an output of the integrator and an E / W signal; And a second comparator configured to compare the output of the first comparator with a reference signal.

Hereinafter, described in detail with reference to the accompanying drawings another embodiment of the present invention.

5 is a block diagram showing the configuration of a horizontal linearity control device of a TV receiver according to the present invention. As shown in FIG. Inserted damper diodes D1 and D2; A deflection yoke coil (Ldy) attached to the water pipe to change the electron beam traveling direction of the water pipe; A first control unit 100 for controlling left and right linearity of horizontal deflection by varying currents according to t _dy , t _LR, and total t according to the change of V _LR ; A second controller 110 for controlling the central linearity of the horizontal deflection by varying the voltage of C _S2 according to the pulse change of Vcen according to V _ref ; The pincushion control unit 120 controls the distortion of the image in the shape of a failure by the edge portion of the optical image or the electronic image converted from the image of the subject.

FIG. 6 is a block diagram showing the configuration of the second control unit in FIG. 5, which shows an integrator 111 for integrating and outputting the input H_FBP signal as shown in FIG. 5; A first comparator (112) for comparing an output of the integrator (111) and an E / W signal; The second comparator 113 compares the output of the first comparator 112 with the reference signal Vref.

Referring to the operation and effect of the embodiment according to the present invention configured as described above are as follows.

First, the operation of the first control unit 100 for controlling the left and right linearity of the horizontal deflection will be described with reference to FIG.

Therefore, by controlling the V _LR value, the left and right linearity of the horizontal deflection is controlled.

That is, the value of C _S (C _S1 // C _S2 ) is determined by the control signal E / W by the microcomputer, and the current changes in the coil L as the value is changed by the comparator of the first controller 100. The time it takes to change is different, and the time change of this current is the voltage across the coil.

Therefore, since the voltages applied to the coils L _dy and L _LR are determined by the time that current flows in each coil, the time of the current flowing in each coil is equal to Equation 1 and Equation 2, respectively, and the sum thereof is the total voltage. Will be That is, as V _LR increases as shown in FIG. 8A, the voltage on the left side of the screen is relatively high, and when V _VLR is small, the voltage on the right side of the screen is relatively high, thereby converting the linearity of the left and right sides of the screen.

Therefore, by controlling the V _LR value, the left and right linearity of the horizontal deflection is controlled.

In addition, referring to an operation of controlling the horizontal center portion linearity of the second control unit 110, when the H-FBP is input to the integrator 111 as shown in FIG. 9, the integrated waveform is input to the first comparator 112. After comparing with the control signal (E / W), the V _CEN waveform is output again by comparing with the V _REF signal of the second comparator 113, and by using this signal to switch the C _S to make a resonance frequency with the coil. The linearity of the central portion is controlled at the corresponding frequency.

로서 V_CS에 걸리는 전압의 양이 상기 편향 요크코일에 흐르는 전류를 결정한다.Therefore, the current flowing through the deflection yoke coil

As a result, the amount of voltage applied to V _CS determines the current flowing through the deflection yoke coil.

가 되어 직선성을 V_CEN, V_LR로 변형시켜 도7과 같이 트윈화면시 주변과 중앙 직선성을 제어함으로써, 메직 윈도우 화면을 실현시킨다.Therefore, the voltage (C _CS = B ⁺ -V _pin ) is applied to the pincushion control unit 120, and the voltage (V _CS = B ⁺ -V _pin -V _CEN ) is applied to the second control unit 110. When the voltage (V _CS = [B ⁺ -V _pin -V _CEN ] -V _LR ) is applied, the current flowing through the modified deflection yoke coil

Then, the linearity is transformed into V _CEN and V _LR to control the peripheral and center linearity at the time of twin screen as shown in Fig. 7, thereby realizing the magic window screen.

As described above, the horizontal linearity control device of the TV receiver according to the present invention implements a magic window screen by changing the linearity of the horizontal deflection circuit with a simple circuit configuration, thereby reducing the information loss of the image at a low cost of 12: 4. Rain has the effect of displaying the entire screen.

Claims (2)

A damper diode placed in parallel in the deflection coil to suppress free vibration occurring after the return period of the sawtooth current flowing through the horizontal deflection coil; A deflection yoke coil attached to the water pipe to change the electron beam travel direction of the water pipe; A first controller configured to control the left and right linearity of the horizontal deflection by varying the current according to the change of the reference voltage V _LR ; A second controller configured to control the central linearity of the horizontal deflection by varying the voltage of C _S2 according to the change of the Vcen pulse according to the reference voltage V _REF ; And a pincushion control unit configured to control the distortion of the image in the shape of a failure due to the edge portion of the optical image or the electronic image converted from the image of the subject. 2. The apparatus of claim 1, wherein the second controller comprises: an integrator for integrating and outputting an input H_FBP signal; A first comparator for comparing an output of the integrator and an E / W signal; And a second comparator configured to compare the output of the first comparator with a reference signal.

Images