KR0129972B1 - Circuit for revising horizontal and vertical synchronous place - Google Patents

Abstract

A circuit for correcting a horizontal/a vertical synchronizing positions of a multi-broadcasting form is disclosed. The apparatus comprises: an intermediated frequency processing unit(3) for determining the form of a broadcasting signal from a tuner and for converting the broadcasting signal to the intermediated frequency according to the determined form; a synchronizing signal detector(4) for detecting the horizontal and the vertical synchronizing signal from the intermediated frequency processing unit; a horizontal deflection unit(8) for receiving the horizontal synchronizing signal to horizontally deflecting an electronic beam; a vertical deflection unit(9) for receiving the vertical synchronizing signal to vertically deflecting an electronic beam; and a microcomputer(10) for correcting the positions of the horizontal and the vertical synchronizing signals to control the synchronizing signal detector according to the corrected value. Thereby, the positions of the vertical and the horizontal synchronizing signals can be automatically corrected according to the form of the broadcasting.

Description

Horizontal / Vertical Synchronous Position Correction Circuit for Multi-broadcasting

(A) of FIG. 1 shows the horizontal frequency of the PAL system, and (b) shows the horizontal frequency of the NTSC system.

2 is a schematic block diagram of a horizontal / vertical deflection position correction circuit according to a conventional multicasting scheme.

FIG. 3A shows the second horizontal synchronous signal compensator 5 in detail, and FIG. 3B shows the vertical synchronous signal compensator 6 in FIG.

4 is a schematic block diagram of a horizontal / vertical synchronous position correction circuit according to the broadcasting method according to the present invention.

5A and 5B are detailed views of each of the horizontal oscillation portion 11 and the vertical oscillation portion 12 of FIG.

6 is an operation flowchart of the microcomputer 10 of FIG.

The present invention relates to a horizontal / vertical synchronous position correction circuit according to a multi-broadcasting method. Particularly, in a television capable of receiving a multi-broadcasting method, the horizontal and vertical deflection positions of the multi-broadcasting system are different from each other. The present invention relates to a horizontal / vertical synchronous position correction circuit according to a multi-broadcast method, which enables automatic correction without adding a circuit.

In general, the multi-broadcasting method refers to a broadcasting method that receives and processes a plurality of broadcasting methods and then allows them to watch them. In this case, the NTSC method is applied in South Korea, the PAL method is applied in North Korea or the Soviet Union, and France. In Europe, SECAM is used.

When the vertical synchronization signal and the horizontal synchronization signal are different from each other in this broadcasting method, and the other broadcasting method is received and displayed as it is in a country adopting one broadcasting method, the color signal is displayed in a deleted state or not displayed at all. There was a problem.

Therefore, in the multi-broadcast TV, the horizontal and vertical deflection positions according to the broadcast system should be corrected.

In the NTSC and PAL schemes, the horizontal and vertical frequencies are different, but the starting point of the horizontal and vertical deflection in the television starts at the same position. In multicast television, the starting point of deflection is set based on the PAL system. In the case of the PAL system, the horizontal frequency is 15.625 KHz, and the television starts to deflect based on this synchronization signal. At this time, when the TV receives NTSC signal, the horizontal frequency is changed to 15.734KHz, but the starting point of horizontal deflection is biased based on 15.625KHz of PAL method. Indicates.

(A) of FIG. 1 shows the horizontal frequency of the PAL system, and (b) shows the horizontal frequency of the NTSC system.

Accordingly, in order to solve the problems caused by the frequency difference between the PAL method and the NTSC method, a horizontal / vertical deflection position correction circuit according to the multi-broadcast method as shown in FIG. 2 is disclosed. As follows.

2 is a schematic block diagram of a horizontal / vertical deflection position correction circuit according to a conventional multicasting scheme.

Referring to the conventional drawing shown in FIG. 2, the tuner 1 tunes a broadcast signal applied from the antenna 2 and outputs the tuned signal to the intermediate frequency processor 3. The intermediate frequency processor 3 determines the broadcast method of the applied broadcast signal, converts the applied high frequency broadcast signal according to the determined broadcast method, converts the intermediate frequency, and processes the broadcast signal of the processed intermediate frequency. The signal is output to the synchronization signal separating unit 4. The sync signal separator 4 separates the horizontal and vertical sync signals of the applied broadcast signal and outputs the separated horizontal sync signals to the horizontal sync signal compensator 5, and compensates the vertical sync signals for the vertical sync signals. Output to part 6. Meanwhile, the switching unit 7 receives a control signal applied from an external or microcomputer (not shown) to control the horizontal synchronous signal compensator 5 and the vertical synchronous signal compensator 6. And outputs each of the synchronous signals applied from the synchronous signal separator 4 to be compensated by the horizontal and vertical synchronous signal compensators 5 and 6. The horizontal deflector 8 horizontally deflects the electron beam emitted from the electron gun according to the horizontal synchronizing signal applied from the horizontal synchronizing signal compensator 5 so that the electron beam is accurately scanned on each pixel of the screen. The vertical deflection section 9 vertically deflects the electron beam emitted from the electron gun according to the vertical synchronization signal applied from the vertical synchronization signal compensator 6 so that the electron beam is accurately scanned on each pixel of the screen.

FIG. 3A shows the horizontal synchronous signal compensator 5 of FIG. 2 in detail, and FIG. 3B shows the vertical synchronous signal compensator 6 of FIG.

2 and 3a and 3b will be described in connection with the following.

The broadcast signal received by the antenna 2 is tuned by the tuner 1.

In this case, since the applied broadcast signal is a high frequency broadcast signal, the broadcast signal is applied to the intermediate frequency processor 3 to convert the broadcast signal into an intermediate frequency before signal processing. At this time, the intermediate frequency processor 3 determines the broadcast method of the applied broadcast signal. The signal processed broadcast signal is separated from the horizontal synchronizing signal and the vertical synchronizing signal by the synchronizing signal separating unit 4, and the horizontal synchronizing signal of the separated horizontal and vertical synchronizing signals is input to the horizontal synchronizing signal compensating unit 5, The vertical synchronizing signal is input to the vertical synchronizing signal floating part 6.

Looking at the horizontal synchronous signal compensator 5 in detail with reference to FIG. 3a, the horizontal part switch 50 for selecting an NTSC or PAL method, the horizontal part voltage controlled oscillator 52, the horizontal part phase detection and the variable part 54 ), And a horizontal portion DC level applying portion 56. The horizontal part voltage control oscillator 52 oscillates in accordance with the frequency of the horizontal synchronizing signal output from the synchronizing signal subunit 4. When the NTSC method is selected by the horizontal part switch 50, the horizontal part DC level applying part 56 applies the DC level to the horizontal part phase detection and the variable part 54. The horizontal unit phase detection and variable unit 54 determines a starting point at which an image on the screen is displayed according to the DC level applied from the horizontal unit DC level applying unit 56. Similarly, when the vertical synchronous signal compensator 6 is described in detail with reference to FIG. 3b, when the NTSC or PAL method is selected, the vertical part switch 60, the vertical part voltage controlled oscillator 62, the vertical part detection and the variable part are selected. 64, the vertical section DC level applying section 66 is provided. The vertical part voltage controlled oscillator 62 oscillates in accordance with the frequency of the vertical synchronous signal output from the synchronous signal separator 4. When the NTSC method is selected by the vertical switch 60, the vertical DC level applying unit 66 applies the DC level to the vertical phase detection and the variable unit 64. The vertical phase detection and variable unit 64 determines a starting point at which an image on the screen is displayed according to the DC level applied from the vertical DC level applying unit 66.

On the other hand, the switching unit 7 is the control signal of the horizontal synchronous signal compensator 5 and the vertical synchronous signal compensator 6 according to the control signal applied from the outside or a control signal applied from a microcomputer (not shown in the drawing). Control the operation.

At this time, the control signal applied to the switching unit 7 varies depending on the broadcasting method determined by the intermediate frequency processing unit 3. That is, when the television is currently configured to process signals in the NTSC system, if the applied broadcasting system is the NTSC system, the horizontal and vertical synchronization signal compensators 5 and 6 are controlled so that the horizontal and vertical synchronization signals are not compensated. If the broadcast method is a PAL method, the horizontal and vertical synchronous signal compensators 5 and 6 control the horizontal and vertical synchronous signals to be compensated. The synchronization signals output from the horizontal and vertical synchronous signal compensators 5 and 6 are input to the horizontal and vertical deflectors 8 and 9, respectively, to control the deflection of the electron beam.

Therefore, in the conventional television, the user compensates the phase of the horizontal part voltage control oscillator 52 and the horizontal part phase detection and the variable part 54 having a function of setting the reference points of horizontal and vertical deflection according to a broadcasting method. I used the add function. In this case, the user does not compensate the phases of the horizontal part voltage control oscillator 52 and the horizontal part phase detection and the variable part 54 when the broadcasting method desired is the PAL method. The position compensation circuit connected to the negative voltage control oscillator 52 and the horizontal part phase detection and the variable part 54 is operated to compensate the phase deviation by the value corresponding to the difference between the two methods.

In the case of the conventional television, the phase of the horizontal oscillation frequency can be varied according to the DC voltage value applied to the horizontal part voltage controlled oscillator 52 and the horizontal part phase detection and the variable part 54. You can change the starting point. As a result, a compensation circuit is added to the outside to correct the DC voltage.

Since the vertical portion also has the same technical idea as the horizontal portion, a detailed description thereof will be omitted.

According to the conventional horizontal / vertical synchronous position correction circuit configured as described above, a horizontal and vertical synchronous signal compensation unit for compensating horizontal and vertical synchronous signals and a separate control unit for the horizontal and vertical synchronous signal floating units Since the switching unit must be additionally configured, there is a problem in that the production cost is increased. In addition, since a separate device is additionally configured, there is a problem in that a configuration circuit becomes complicated.

The present invention is to solve the above problems, the object of the present invention is to provide a low cost and simple circuit configuration according to the broadcast method to control the compensation of the difference between the horizontal and vertical synchronization signal according to the broadcast method applied only It is to provide a horizontal / vertical synchronous position correction circuit.

Horizontal / vertical synchronization position correction circuit according to the broadcast method according to the present invention for achieving the above object is a tuner for tuning the received broadcast signal; An intermediate frequency processor converting the broadcast signal output from the tuner into an intermediate frequency and processing the signal; A synchronization signal separator for separating horizontal and vertical synchronization signals of the broadcast signal output from the intermediate frequency processor; A horizontal oscillator configured to perform a horizontal oscillation according to a start point of a horizontal deflection of the horizontal synchronizing signal output from the synchronization signal separator; A vertical oscillator configured to vertically oscillate the vertical sync signal output from the sync signal separator according to a start point of vertical deflection; A horizontal deflector for horizontally deflecting the electron beam by receiving the signal output from the horizontal oscillator; A vertical deflection unit for vertically deflecting the electron beam by receiving the signal output from the oscillation oscillation unit; Detects the broadcast method of the broadcast signal currently received by the signal output from the intermediate frequency processing unit, checks the position of the current horizontal and vertical sync signal, and the starting point of the horizontal sync signal and the vertical sync signal according to the detected broadcast method. And a microcomputer for applying a control signal to the horizontal oscillator and the vertical oscillator so as to fit the control unit.

Hereinafter, a preferred embodiment of the horizontal / vertical synchronous position correction circuit according to the broadcast method according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a schematic block diagram of a horizontal / vertical synchronous position correction circuit according to a broadcasting method according to the present invention. In FIG. 4, the same reference numerals as those of FIG. 2 denote the same parts, and thus description thereof will be omitted. Describes only the essential components of

In FIG. 4, the microcomputer 10 controls the horizontal oscillator 11 and the vertical oscillator 12 by detecting the information on the broadcasting method from the intermediate frequency processor 3 shown in FIG. Also, the horizontal and vertical synchronous signal compensators 5 and 6 shown in FIG. 2 are removed.

5A and 5B are detailed views of each of the horizontal oscillation portion 11 and the vertical oscillation portion 12 of FIG.

In detail, the horizontal oscillator 11 illustrated in FIG. 5A includes a voltage controlled oscillator 110, a phase detector and a variable unit 112, and a digital / analog signal converter 114. Also, in detail, the vertical oscillator 12 illustrated in FIG. 5B includes a voltage controlled oscillator 120, a phase detector and a variable unit 122, and a digital / analog signal converter 124.

The operation of the horizontal / vertical synchronous position correction circuit according to the broadcast method configured as above is as follows.

The broadcast method determined by the intermediate frequency processor 3 is applied to the microcomputer 10, and the microcomputer 10 controls the horizontal oscillator 11 and the vertical oscillator 12 according to the applied broadcast method. When the broadcast method determined by the intermediate frequency processor 3 is an NTSC broadcast system, the microcomputer 10 outputs a first control signal to the horizontal oscillator 11 and the vertical oscillator 12 to output the first control signal from the intermediate frequency processor 3. The position of the output horizontal synchronous signal and the vertical synchronous signal is properly corrected for movement according to a prescribed value.

On the other hand, when the broadcast method determined by the intermediate frequency processor 3 is a PAL broadcast method, the microcomputer 10 outputs a second control signal to the horizontal oscillator 11 and the vertical oscillator 12 to output the intermediate frequency processor 3. The horizontal and vertical synchronous signals output from the intermediate frequency processor 3 are output as they are without shifting the positions of the horizontal synchronous signal and the vertical synchronous signal outputted from the "

Therefore, in case of NTSC broadcasting system, the output horizontal and vertical synchronization signal position is automatically corrected by the initial set value and output. Therefore, the screen is always displayed in constant horizontal and vertical synchronization position regardless of NTSC or PAL method. do.

That is, the microcomputer 10 determines the broadcast method of the broadcast signal currently received by the signal applied from the intermediate frequency processor 3, and compensates and corrects a value corresponding to the difference in position according to each broadcast method. .

When the phase of the horizontal oscillator 11 is changed only by the program of the microcomputer 10, a change is applied to the horizontal oscillator 11 to a DC level value corresponding to the data value changed by the digital / analog signal converter 114. It is possible to change the starting point of horizontal deflection. Therefore, the correction values already set in the program of the microcomputer 10 are automatically applied to the horizontal oscillator 11 according to the type of the broadcast method to be received, thereby enabling accurate scanning of the screen at the center. The operation of the vertical oscillator 12 is also the same as the technical concept of the horizontal oscillator 11, so detailed description thereof will be omitted.

6 is a flowchart of operation of the microcomputer 10 of FIG.

The microcomputer 10 detects the broadcast method determined by the intermediate frequency processor 3 (S1), and determines whether the detected broadcast method is an NTSC broadcast method. (S2)

If it is determined that the broadcast method detected in step S2 is an NTSC broadcast method, the microcomputer 10 checks the positions of the horizontal and vertical synchronization signals output from the intermediate frequency processor 3 (S3).

When the position of the horizontal and vertical synchronous signals is checked, the microcomputer 10 adds a preset value X1 to the current horizontal synchronous value, and adds a preset value X2 to the current vertical synchronous value to add a new horizontal and vertical synchronous value. (S4)

The microcomputer 10 outputs the new horizontal and vertical synchronization values set in step S4 to the synchronization signal separator 4 to control the horizontal and vertical deflection to proceed according to the newly set horizontal and vertical synchronization values. (S5)

On the other hand, if it is determined that the broadcast method detected in the above step (S2) is not the NTSC broadcast method, the microcomputer 10 determines that the applied broadcast method is the PAL broadcast method, and the horizontal output from the intermediate frequency processor 3 And the position of the vertical synchronization signal (S6).

When the positions of the horizontal and vertical synchronization signals are checked, the microcomputer 10 outputs the signals to the synchronization signal separator 4 without changing the current horizontal and vertical synchronization values, and according to the output horizontal and vertical synchronization values. After controlling the horizontal and vertical deflection to proceed (S7), it ends all the progress.

In the present invention, the same result can be obtained by replacing the PAL method with the SECAM method.

As described above, according to the horizontal / vertical synchronous position correction circuit according to the broadcast method according to the present invention, there is no need to additionally configure a separate device to automatically correct the position of the horizontal and vertical synchronous signal according to the broadcast method. The cost can be reduced and the configuration circuit can be simplified.

Claims (1)

A tuner for tuning a received broadcast signal, an intermediate frequency processor for converting a broadcast signal output from the tuner into an intermediate frequency and processing the signal; A synchronization signal separation unit for separating horizontal and vertical synchronization signals of the broadcast signal output from the intermediate frequency processing unit; A horizontal oscillator configured to perform a horizontal oscillation according to a start point of a horizontal deflection of the horizontal synchronizing signal output from the synchronization signal separator; A vertical oscillator for performing a vertical oscillation according to the start point of the vertical deflection of the vertical synchronous signal outputted from the synchronous signal separator; A horizontal deflector for horizontally deflecting the electron beam by receiving the signal output from the horizontal oscillator; A vertical deflector for receiving a signal output from the vertical oscillator and vertically deflecting the electron beam; Detects the broadcast method of the broadcast signal currently received by the signal output from the intermediate frequency processor, checks the position of the current horizontal and vertical sync signal, and determines the starting point of the horizontal sync signal and the vertical sync signal according to the detected broadcast method. And a microcomputer for applying control signals to the horizontal oscillator and the vertical oscillator.