KR920003368B1 - Vertical deflection device for hdtv - Google Patents

Abstract

The verticaldeflection circuit has a controller (1) using a stored vertical deflection program, allowing transmitted deflection current data received froma control bus (BUS1) to be fed to a data bus (DB2). The data is transmitted in synchronism with the vertical synchronizing signal (VS). The vertical deflection program uses four sucessive stages to allow the transfer of the stored vertical deflection current data to be repeated when the control bus (BUS1) is not available. The circuit includes a nonvolatile memory (1) for storing quantized vertical deflection current data, a D/A converter (3), a LPF (4) and an amplifier (5) connected to a vertical deflection coil (LV).

Description

Vertical Deflection Device for High Resolution TV Receivers

1 is a circuit diagram of an apparatus of the present invention.

2 is a program distribution diagram of the apparatus of the present invention.

3A and 3B are operational waveform diagrams of various parts of the apparatus of the present invention.

4 is a circuit diagram of a TV receiver for explaining the operation of the device of the present invention.

The present invention relates to a vertical deflection device of a high-definition TV receiver, and in particular, the output of a controller connected to a nonvolatile memory is connected to the other side of a vertical deflection coil having one side grounded through a low pass filter and an amplifier of a D / A converter. The present invention relates to a vertical deflection device for a high resolution TV receiver in which a predetermined program is input to a microcomputer in the receiver.

In the conventional TV receiver, the current value of vertical deflection is determined by the magnetic flux produced by the coil during production, but such deflection current cannot display a high resolution screen, and furthermore, the image quality of the straight line or the screen is poor.

The present invention is to solve the above disadvantages, the output of the controller connected to the nonvolatile memory is connected to the other side of the vertical deflection coil grounded on one side through the D / A converter, low pass filter and amplifier, By inputting a predetermined program into the micon, it is possible to change constants such as the position and frequency of the vertical deflection, and furthermore, to convert the current value into data. To provide a vertical deflection device of a high-definition TV receiver to enable the above, with reference to the accompanying drawings, the configuration and operation of the present invention will be described in detail as follows.

According to FIG. 1 and FIG. 2, in the apparatus of the present invention, the controller ₁ connected to the control adjustment bus BUS ₁ and the vertical synchronous input terminal VS is connected to the address bus AB ₁ and the data bus DB ₁ . To the non-volatile memory (2) and simultaneously to the D / A converter (3) via the data bus (DB ₂ ), the output of the D / A converter (3) is a low pass filter (4) and an amplifier ( 5) Connect one side to the other side of the grounded vertical deflection coil (LV), and initialize the microcomputer of the TV receiver and check whether it uses BUS ₁ , and if it is not used in the first stage, the VS signal If there is no test, send basic data equal to (T-Tn) of the vertical deflection current to DB ₂ , and then return to the step of checking BUS ₁ during the first step. ) after reading the data from the to-Tn from the DB ₂ in step 2 to step back to examine the BUS ₁ , First when the step 1, using the BUS ₁ after a primary data according to a run the operation according to the state of the BUS ₁ then To-Tn to the BUS _2, if the use of the BUS ₁ done by checking the kkeutnatneunga returns to the second step , If it is not finished, return to the third step of checking whether there is a VS signal, and if there is no VS signal in step 3, send basic data according to To-Tn to DB ₂ in the third step, and synchronize with VS if The third step is to store the program of the fourth step, which returns to the step of sending basic data according to To-Tn to DB ₂ , see the effects of the device of the present invention having such a configuration, see Figure 3a, b First, the vertical and horizontal deflections of a TV receiver are deflected by magnetic flux made of coils, and the current flowing through the coils has a direct relationship with the deflection. In order to improve the linearity due to the vertical deflection of the high resolution screen display device by adjusting it to a predetermined value, divide one period of the vertical deflection frequency into n equal to To-Tn as shown in FIG. 3a and divide the deflection current according to To-Tn into Io. Flow into -In to deflect.

Here, the operation of the control adjustment bus BUS ₁ will be described. In FIG. 4, the color-brown tube image input from the TV camera installed on the front of the color-brown tube (CPT) is converted into a digital signal through the A / D converter. This signal is sent to the regulator and the controller again processes the digital signal to check the vertical deflection to determine a value that can be corrected and puts this value on the control adjustment bus BUS ₁ so that the controller 1 Send it to to adjust the vertical deflection.

Repeat this adjustment to finish the adjustment to the optimal state.

In more detail with reference to FIG. 1, quantized data capable of producing V (n) corresponding to the output voltage of the horizontal output amplifier 5 allowing current (Io-In) corresponding to To-Tn to flow. D (n) is a function f (v), and D (n) is the solution corresponding to T (n) of f (v). Therefore, if it operates according to the vertical circuit f (v), D (n) is obtained and stored in the nonvolatile memory 2, and V (n) corresponding to D (n) stored in the memory 2 is made. The output of the main D / A converter 3 removes the high frequency components through the low pass filter 4. Referring to the operation of the present invention and the peripheral circuit shown in the dotted line as shown in Figure 4, the signal output from the signal source for the rest of the TV receiver is applied to the image input terminal of the TV and the color CRT (CPT) in the image processing circuit And the horizontal synchronous signal (HS) and the vertical synchronous signal (VS) from the video signal in the synchronous separation circuit, and then the horizontal synchronous circuit (HS) is input signal of the high voltage generating circuit and the horizontal deflection circuit. The horizontal deflection is adjusted by flowing a horizontal deflection current in the high pressure and deflection coil of the color pipe (CPT). The clock output signal CLK of the clock generator for oscillating the frequency corresponding to an integer multiple of the vertical synchronization signal and the horizontal synchronization signal frequency output from the synchronization separation circuit is input as a signal for the operation of the apparatus of the present invention. Is applied to 1).

The controller 1 receives the vertical synchronizing signal VS and the basic clock CLK as shown in FIG. 3B and controls each of them by a control signal input through the control adjustment bus BUS ₁ , thereby deflecting time, deflection voltage and deflection position. And so on.

: 여기서 T_VS는 수직편향 1주기를 말함)보다 매우 크므로 수직동기신호(VS)의 입력상태에 따라 동작하여 동기신호에 동기될때 제3b도와 같은 동기신호에 비해 무시할 수 있을 정도의 시간차이를 두고 제어기(1)는 제3a도의 To에 해당하는 데이타를 메모리(2)에서 읽고 계산하여 수평편향코일(LV)에 전류(Io)에 해당하는 전압을 출력하게 되고 T₁구간 이후부터 Tn까지의 제어기(1)는 n을 순차적으로 증가시키면서 I(n)의 전류를 수평편향코일(LV)에 흘리게됨에 따라 전류의 변화를 따른 수직편향을 원활하게 행할 수 있다. 한편 D/A 변환기(3)는 입력데이타에 해당하는 전압을 출력하게 되고, 이 전압은 양자화되어 있으므로 저역통과 필터(4)를 통하면서 급격한 파형 변화를 가져서 거의 직선적인 기울기를 가지는 전압파형이 증폭기(5)에 입력된다.On the other hand, if the second assist as BUS ₁ is used in the pre-operation according to the contents defined in the controller (1) and memory storage, adjustment of the adjustment data during the TV production in the operation and various operation control is executed BUS ₁ controller ( When the control status is changed to 1), only the vertical circuit is operated in accordance with the contents of the program stored inside. Also, the clock CLK is the vertical frequency (

Since T _VS is much larger than one period of vertical deflection, it operates according to the input state of the vertical synchronous signal VS, so that when the synchronous signal is synchronized, the time difference is negligible compared to the synchronous signal as shown in FIG. with the controller 1 is of Tn until after the 3a degrees to the data for the to calculate read from memory 2 and outputs a voltage corresponding to the current (Io) to the horizontal deflection coil (LV) T ₁ interval The controller 1 can smoothly perform vertical deflection according to the change of current as the current of I (n) flows in the horizontal deflection coil LV while increasing n sequentially. On the other hand, the D / A converter 3 outputs a voltage corresponding to the input data, and since the voltage is quantized, a voltage waveform having an almost linear slope with a sudden waveform change through the low pass filter 4 is an amplifier. It is input to (5).

When the vertical deflection is made by such operation, the designer can easily create the vertical deflection current desired by the designer, rather than correcting the rate of change of the vertical current by the existing coil, capacitor, resistor, transformer, etc. Can be controlled by a small time unit, so that a precise image can be realized, and the screen deflection of a certain standard following the automatic adjustment is possible. In other words, it is possible to automatically adjust by the machine during production, and to control the vertical deflection according to the position of the screen by the small time unit, high precision vertical deflection that is difficult to realize in the conventional analog deflection circuit is possible, In this case, the constants such as the position and frequency of vertical deflection can be converted, and the current value can be adjusted with data, so that almost everything about vertical deflection can be changed by replacing only the contents of the data.

As described above, the device of the present invention stores the current of the current flowing through the vertical deflection coil in the memory of the image display device using the cathode ray tube as a quantized value in advance, and then vertically stores the vertical deflection. High-definition video can be viewed by deflecting.

Claims (1)

The controller ₁ connected with the control adjustment bus BUS ₁ and the vertical synchronous input terminal VS is connected to the nonvolatile memory 2 via the address bus AB ₁ and the data bus DB ₁ and at the same time the data bus. A vertical deflection coil LV connected to the D / A converter 3 via DB ₂ , and the output of the D / A converter 3 is grounded on one side through the low pass filter 4 and the amplifier 5. Connect to the other side, and in the microcomputer in the TV receiver, initialize the _first and then check whether BUS ₁ is used, and if it is not used in the first step, check whether there is a VS signal, and if not, divide the vertical deflection current into equal parts (To- After sending basic data to DB ₂ , it returns to the step of checking BUS ₁ during the first step. If there is a VS signal, it synchronizes with VS and reads data of To-Tn from memory (2) and sends it to DB ₂ . after using the BUS ₁ in a first step and a second step 12 back to checking for a BUS ₁ BUS ₁ After executing the action according to the status, send other basic data to To-Tn to DB ₂ and check if the use of BUS ₁ is finished, and if it is over, go back to the second step. If not, the third step to check if there is a VS signal. If there is no VS signal in step 3, it returns to sending the basic data according to To-Tn to DB ₂ in the third step. If it is, it synchronizes with VS and then returns the basic data according to To-Tn in the third step. a memory by the program in a fourth step of returning to the step of sending the DB ₂ high resolution vertical deflection device of the TV set.

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