KR100308568B1 - Screen size automatic compensation circuit - Google Patents

Abstract

The present invention relates to a screen size automatic compensation circuit that can automatically compensate for a constant screen size even when various deflection frequencies are input to a deflection stage of an image display device.

According to the present invention, the image signal (R / G / B) is received separately from the horizontal synchronization signal (H-Sync) separated from the synchronization separating unit 10 and phase-synchronized to the horizontal frequency, this phase-synchronized horizontal frequency Calculate the horizontal size for each frequency by using the standard data, and the horizontal size compensation means 20 for compensating the horizontal size and position according to the horizontal position shift value of the input signal and outputting it to the horizontal deflection unit 30,

In addition to the vertical synchronization signal (V-Sync) separated from the synchronization separator 10, the image signal (R / G / B) is input and phase-synchronized to the vertical frequency, and the phase-synchronized vertical frequency is used as standard data. Comprising the vertical size compensation means 40 to calculate the vertical size for each frequency and to compensate the vertical size and position according to the vertical position shift value of the input signal to output to the vertical deflection unit 50,

It always compensates for a constant screen size even at various deflection frequencies, but also accurately compensates for the deviation of the back raster part of the screen.

Description

Screen size automatic compensation circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an image display device, in particular, to a screen size automatic compensation circuit that can automatically compensate for a constant screen size even at various various deflection frequencies.

Conventional screen size compensation circuit is not shown, but briefly described as follows.

If the horizontal and vertical frequencies inputted to the horizontal and vertical deflections are changed, the screen is shifted up, down, left, or right, and if the raster portion is distorted, it is not possible to correct it by manually adjusting it. There is a problem that reduces the trust of the whole product.

In order to solve the above problems, the screen size automatic compensation circuit of the present invention receives an image signal separately from the horizontal synchronization signal, matches the phase to the frequency of the horizontal synchronization signal, and sets the phase synchronized horizontal frequency as standard data. And a means for compensating the horizontal size and the horizontal position according to the horizontal position shift value of the input signal after calculating the horizontal size with respect to the frequency. Match the phase to the signal frequency, calculate the vertical size for each frequency by using the phase-synchronized vertical frequency as standard data, and accurately adjust the vertical size and vertical position according to the vertical position shift value of the input signal. It is equipped with a means of correction, so that even if various deflection frequencies are inputted, it is always automatically Even deviations to compensate the other hand, does not appear on the screen referred back to a master part to be accurately compensated.

1 is a block diagram of the automatic screen size compensation circuit of the present invention

2 is a block diagram showing an embodiment of a horizontal size compensation means in the automatic screen size compensation circuit of the present invention;

3 is a block diagram of an embodiment of a vertical size compensation means in the automatic screen size compensation circuit of the present invention;

As shown in Figs. 1 to 3 for the configuration of the screen size automatic compensation circuit of the present invention,

A synchronization signal separation unit 10 for separating horizontal and vertical synchronization signals (H / V-Sync),

In addition to the horizontal synchronization signal (H-Sync) separated from the synchronization separation unit 10 receives the image signal (R / G / B) to synchronize the phase to the horizontal synchronization signal frequency, this phase synchronized horizontal frequency Calculate the horizontal size for each frequency by using the standard data and the horizontal size compensation means 20 for accurately compensating the horizontal size and position according to the horizontal position shift value of the input signal,

A horizontal deflection unit 30 which receives the horizontal magnitude and position data of the horizontal frequency from the horizontal magnitude compensating means 20 and outputs the horizontal deflection current corresponding to the horizontal deflection yoke (H.DY);

In addition to the vertical synchronization signal (V-Sync) separated from the synchronization separator 10 receives the image signal (R / G / B) to synchronize the phase to the vertical synchronization signal frequency, the phase-synchronized vertical frequency A vertical size compensating means 40 for calculating a vertical size for each frequency using standard data and accurately compensating the vertical size and the vertical position according to the vertical position shift value of the input signal;

The vertical deflection unit 50 receives the vertical magnitude and vertical position data of the vertical frequency from the vertical magnitude compensation means 40 and outputs the vertical deflection current corresponding to the vertical deflection yoke V.DY.

And, Figure 2 is a configuration of an embodiment of the horizontal size compensation means 20,

A high pass filter 21 for filtering low frequency noise by filtering each of the input horizontal sync signal (H-Sync) and the image signal (R / G / B), and generating the synchronization signal by receiving the filtered horizontal sync signal. A horizontal synchronous signal generator 22, a horizontal oscillator 23 for generating a horizontal oscillation frequency by the filtered horizontal synchronous signal, and the synchronous signal frequency, an oscillation frequency, and a phase to determine an input horizontal frequency. A horizontal position calculating unit 24 having a plurality of counters (first to third counters) for calculating a horizontal position by receiving the horizontal synchronizing signal determination unit 24 for synchronizing and the filtered horizontal synchronizing signal and the image signal; 25) and setting the phase-locked horizontal frequency to standard data, calculating a horizontal size using a correction table for each frequency, and then calculating the horizontal size according to the horizontal position calculated from the horizontal position calculator 25. The microcomputer 26 compensates for the vertical size and position, and the horizontal data processing unit 27 adjusts the horizontal size and position according to the instruction data of the microcomputer 26 and outputs the horizontal deflection unit 30 to the horizontal deflection unit 30.

The high pass filter 21 is a high pass filter 21A for removing low-frequency noise of the horizontal synchronization signal H-Sync separated from the synchronization separator 10, and an image signal R / G / B. It is a configuration including a high pass filter (21B) to remove the low range of,

The horizontal synchronizing signal determination unit 24 divides the oscillation frequency of the horizontal oscillator 23 by the division signal of the microcomputer 26, and the horizontal synchronizing signal generator 22 divides the divided oscillation frequency. And a phase locked loop (PLL) section 24C for changing the comparison output signal of the comparator 24B to match the phase of the two signals.

Each counter (first, second, third counter) of the horizontal position calculator 25 has a front-poch period (data 1), a video signal period (data 2), and a back between the horizontal synchronization signal and the video signal. Calculate each as a porch period (data 3).

Then, the horizontal data processing unit 27 adjusts the horizontal size adjusting unit 27A for adjusting the horizontal size according to the instruction data of the microcomputer 26, and the horizontal size EW value adjusted by the horizontal size adjusting unit 27A. The EW output unit 27B output to the horizontal deflection unit 30, the horizontal position adjusting unit 27C for adjusting the horizontal position in accordance with the instruction data of the microcomputer 26, and the horizontal position adjusting unit 27C The horizontal output unit 27D outputs the horizontal position data to the horizontal deflection unit 30 by compensating the phase with the horizontal output pulse.

On the other hand, Figure 3 is an embodiment showing the configuration of the vertical size compensation means 40,

A low pass filter 41 for filtering each of the vertical synchronization signal V-Sync and the image signal R / G / B to remove the high frequency signal, and a vertical synchronization receiving the filtered vertical synchronization signal to generate a synchronization signal A signal generator 42, a vertical oscillator 43 for generating a vertical oscillation frequency by the filtered vertical synchronization signal, and an oscillation frequency of the synchronization signal and the oscillation frequency of the vertical oscillator 43 to determine an input vertical frequency. Vertical position calculation with a vertical synchronization signal discrimination unit 44 for synchronizing the phase and a plurality of counters (fourth to sixth counters) for calculating the vertical position by receiving the filtered vertical synchronization signal and the image signal. The unit 45 and the phase-synchronized vertical frequency are used as standard data, and the vertical size for each frequency is calculated using a correction table, and the vertical position is calculated according to the vertical position calculated by the vertical position calculator 45. Size and Adjusting the vertical size and the position data in accordance with an instruction of the microcomputer 46 and the microcomputer (46) to compensate the value consists of a vertical data processing unit 47 for outputting a vertical deflection section 50.

The low-pass filter 41 is a low-pass filter 41A for removing low-pass noise of the vertical synchronization signal (H-Sync) separated from the sync signal separating unit 10, and the image signal (R / G / B Is a configuration including a low pass filter 41B for removing the low pass of

The vertical synchronizing signal discrimination section 44 includes a divider 44A, a comparator 44B, and a phase locked loop (PLL) section 44C.

Each counter (fourth, fifth, and sixth counters) of the vertical position calculating unit 45 is vertically processed in black, and the front-poch period (data 4) between the vertical synchronization signal and the video signal that does not appear on the screen. , The vertical video signal period (data 5) and the back-poch period (data 6), respectively.

The vertical data processing unit 47 includes a vertical size adjusting unit 47A for adjusting the vertical size in accordance with the instruction data of the microcomputer 46 and a vertical position adjusting unit for adjusting the vertical position in accordance with the instruction data of the microcomputer 46. 47B) and a vertical output section 47C for outputting the adjusted vertical size and vertical position data to the vertical deflection section 50. FIG.

The operation of the automatic screen size correction circuit of the present invention configured as described above will be described with reference to FIGS. 1 to 3 as follows.

First, the horizontal and vertical synchronization signals (H / V-Sync) are separated into a horizontal synchronization signal (H-Sync) and a vertical synchronization signal (V-Sync) in the synchronization signal separation unit 10, and the separated horizontal synchronization signals Are input to the horizontal size compensation means 20, the vertical synchronous signal to the vertical size compensation means 40, respectively.

Then, the horizontal size compensating means 20 receives the image signal (R / G / B) separately from the horizontal synchronous signal and synchronizes the phase of the horizontal synchronous signal frequency. After the magnitude is calculated using the correction table, the horizontal size and the vertical position are compensated according to the horizontal position shift value of the input signal.

As such, the horizontal frequency data whose horizontal size and horizontal position are compensated by the horizontal size compensating means 20 is output as a corresponding current to the horizontal deflection yoke (H.DY) through the horizontal deflection portion 30, and thus is always constant. Supply a horizontal deflection current.

In addition, the vertical size compensation means 40 receives a video signal (R / G / B) separately from the vertical synchronization signal, and synchronizes phase with the vertical synchronization signal frequency, and then uses each frequency based on the vertically synchronized vertical frequency. After calculating the vertical size with respect to the correction table to compensate for the vertical size and the vertical position according to the vertical position shift value of the input signal.

As such, the vertical frequency data whose vertical size and position are compensated by the vertical size compensating means 40 is output as a corresponding current to the vertical deflection yoke V. DY through the vertical deflection portion 50, so that it is always constant vertical. Allow deflection current to be supplied.

2 is an example showing a detailed configuration diagram of the horizontal size compensation means 20,

The horizontal synchronous signal (H-Sync) and the image signal (R / G / B) which are input are input to each of the high pass filters 21A and 21B of the high pass filter unit 21 to remove the low pass noise and the low pass noise. The filtered video signal is filtered.

The filtered horizontal synchronization signal is input to the synchronization signal generator 22, the horizontal oscillator 23, and the horizontal position calculator 25 so as to match the phases, and the filtered image signal is horizontal position calculator 25. ) Is entered.

The horizontal synchronizing signal input to the horizontal synchronizing signal generator 22 is generated as a synchronizing signal of the same frequency, and is input to the comparator 24B of the horizontal synchronizing signal discriminating unit 24 and input to the horizontal oscillator 23. The horizontal synchronizing signal generates a constant oscillation frequency and is input to the divider 24A of the horizontal synchronizing signal discrimination unit 24.

At this time, the horizontal synchronizing signal discrimination unit 24 includes a divider 24A, a comparator 24B, and a PLL unit 24C to accurately determine the value of the horizontal synchronizing signal frequency currently input. The phase of the frequency is matched to determine what value the current horizontal frequency has.

To this end, the microcomputer 26 recognizes the synchronization signal frequency currently input through the PLL unit 24C and outputs an accurate division value through the divider 24A to match the phase of the oscillation frequency and the synchronization signal frequency. do.

Then, the frequency divider 24A divides the oscillation frequency according to the division value and outputs it through the comparator 24B. The divided oscillation frequency is compared with the synchronization signal frequency in the comparator 24B and the PLL section 24C is performed. This comparison output frequency is fed back to the next divider 24A, which is changed by the PLL section 24C, so that the phases of the two signals are exactly matched.

When the phases of the two signals coincide as described above, the microcomputer 26 sets the horizontal frequency data (horizontal output / horizontal size / horizontal position) of the horizontal frequency phase-locked from the divider 24A to a standard value. do.

At this time, the microcomputer 26 calculates the exact horizontal size for each frequency by using the horizontal size correction table of the horizontal frequency data, and outputs the data to the horizontal size adjusting unit 27A of the horizontal data processing unit 27 to output the data. It will have a screen size.

In this case, the calculated horizontal size is a size of a screen which may be caused by deflection, and includes a back raster portion that is not actually displayed on the screen.

In addition, in order to compensate for the horizontal size in consideration of the shift value of the horizontal position according to the input signal, the horizontal position calculator 25 receiving the horizontal synchronous signal and the image signal includes a plurality of counters (first, second, and first). 3 counters) to calculate the distance between the horizontal synchronization signal and the video signal.

In order to calculate the interval between the horizontal synchronization signal and the video signal, that is, the front-porch and back-porch periods, the first counter sets the front-porch period (data 1). In the second counter, the video signal period (data 2) is counted, and in the third counter, the back-poch period (data 3) is counted.

Then, the horizontal position data (data 1, data 2, data 3) calculated by the horizontal position calculator 25 is input to the microcomputer 26 to take into account the horizontal size according to the horizontal position shift value. This is because the front-poch and back-poch periods may have different values depending on the signal.

At this time, the microcomputer 26 has different values between the front-pooch period (data 1) calculated by the counter 1 of the horizontal position calculator 25 and the back-poch period (data 3) calculated by the counter 3. In this case, the horizontal position is shifted by the deviation, and the horizontal size is compensated according to the shift value of the horizontal position.

Here, the deviation between the front porch and the back porch is Compensate for horizontal movement to the left if "Data1>Data3", and compensate for horizontal movement to the right if "Data3>Data1", and compensate for the movement of this horizontal position to the horizontal size. Done.

The microcomputer 26 accurately compensates the horizontal size by the deviation of the front-poch period and the back-poch period, which are input differently according to the input signal, and also compensates the horizontal position to the horizontal size of the horizontal data processor 27. It outputs to the adjustment part 27A and the horizontal position adjustment part 27C.

Then, the horizontal size adjusting unit 27A adjusts the horizontal size according to the horizontal size compensation data, and then outputs it through the EW output unit 27B to horizontally deflect to the compensated horizontal size (E (east) -W (west)) value. Output to the unit 30.

Then, the horizontal position adjusting unit 27C adjusts the horizontal position according to the horizontal position compensation data, and then outputs it through the horizontal output unit 27D to be output to the horizontal deflection unit 30 in the phase of the compensated horizontal output pulse.

Therefore, the horizontal size and the horizontal position data compensated by the horizontal size compensating means 20 compensate the horizontal deflection yoke H.DY through the horizontal deflection unit 30 with a constant horizontal deflection current at all times.

On the other hand, Figure 3 is a view showing an example of the vertical size compensation means 40,

The input vertical synchronization signal and the image signal are filtered and output from the low-pass filter 41A and 41B of the low-pass filter unit 41, respectively.

The filtered vertical synchronizing signal is input to the vertical synchronizing signal generator 42, the vertical oscillator 43, and the vertical position calculating unit 45 for phase synchronizing, and the filtered image synchronizing signal is the vertical position calculating unit 45. ) Is entered.

The vertical synchronizing signal inputted to the vertical synchronizing signal generator 42 is output to the comparator 44B of the vertical synchronizing signal discriminating unit 44 as a synchronizing signal of the same frequency, and the vertical oscillator 43 is operated by the vertical synchronizing signal. The oscillation frequency is generated and output to the divider 44A of the vertical synchronization signal discrimination unit 44.

Then, the vertical synchronizing signal discrimination unit 44 includes a divider 44A, a comparator 44B, and a PLL unit 44C to synchronize exactly with the oscillation frequency in order to know exactly what value the vertical frequency is currently input. To match the phase of the signal frequency,

Here, the microcomputer 46 recognizes the synchronization signal frequency currently input through the PLL unit 44C and outputs an accurate division value to the frequency divider 44A to match the phase of the oscillation frequency and the synchronization signal frequency.

Then, the divider 44A divides the oscillation frequency according to the division value, and this divided oscillation frequency is output to the comparator 44B and compared with the synchronization signal frequency, and this comparison frequency is input to the PLL section 44C. As the frequency is changed and fed back to the divider 44A, the phases of the two signals are exactly matched.

At this time, the microcomputer 46 receives the vertical frequency from the divider 44A when the phase synchronization of the two signals is exactly matched, and sets it to the standard value of the vertical data (vertical output / vertical size / vertical position). do.

The vertical size value for each frequency is accurately calculated using the vertical size correction table of the vertical data so as to have a desired screen size, and the data is output to the vertical size adjusting unit 47A of the vertical data processing unit 47.

Here, the vertical size value is the size of the screen that may be caused by the deflection, and includes the back raster portion that is not actually displayed on the screen.

In addition, the vertical position calculation unit 45 calculates the vertical position and outputs it to the microcomputer 46 in order to consider the movement value of the vertical position to compensate the vertical size more accurately.

The vertical position calculation unit 45 is a vertical front-porch and back-porch that are not displayed on the screen by being processed in black from the vertical, that is, the interval between the filtered vertical synchronization signal and the image signal. Fourth, fifth, and sixth counters are provided to calculate the correct vertical position to calculate the spacing between the back-porches.

That is, in order to calculate the interval between the vertical synchronization signal and the video signal, the front-poch period (data 4) at the fourth counter, the vertical video signal period (data 5) at the fifth counter, and the back-for at the sixth counter. Each of the error periods (data 6) is calculated.

In this way, the data (data 4, data 5, data 6) calculated at each counter (fourth, fifth, and sixth counters) of the vertical position calculator 45 is input to the microcomputer 46 to move the vertical position. Depending on the vertical size will be compensated. This is because the front-poch and back-poch periods have different values depending on the signal.

The microcomputer 46 calculates the deviation between the front-poch and the back-poch of the data (data 4, data 5, and data 6) input from the vertical position calculation unit 45, Therefore, the vertical position is moved, and the vertical size is corrected more accurately in consideration of the shift value of the vertical position.

That is, the deviation between the front-poch calculated by the fourth counter and the back-poch period calculated by the sixth counter is calculated. After calculating from, data 4> data 6 compensates to move vertically upwards, and data 6> data 4 compensates to move vertically downwards, and compensates the vertical size according to the compensated vertical position values. .

Therefore, as described above, the vertical position and vertical size data compensated by the microcomputer 46 are output to the vertical size adjusting unit 47A and the vertical position adjusting unit 47B of the vertical data processing unit 47.

Then, the vertical size adjusting unit 47A adjusts the vertical size according to the indication data of the vertical size and outputs it to the vertical output unit 47C, and the vertical position adjusting unit 47B adjusts the vertical position according to the indication data of the vertical position. It adjusts and outputs to the vertical output part 47C.

Since the vertical output unit 47C of the vertical data processing unit 47 outputs a vertical deflection current corresponding to the vertical deflection yoke V.DY through the vertical deflection unit 50 with the vertical size and the vertical position compensated for. Therefore, even if the vertical deflection frequency is changed, the vertical deflection current is constantly adjusted.

Accordingly, the vertical and horizontal size compensating means 20 and 40 determine the vertical and horizontal frequencies so that they always have a constant screen size even at various deflection frequencies, and then use the correction table according to the determined frequencies to determine the size of each frequency. Compensation, but it is possible to compensate the vertical and horizontal size more accurately by taking into account the deviation between the front-poch and the back-poch, while constantly adjusting the deflection current of the screen, while the back raster portion of the screen Even the deviation of is accurately compensated.

As described above, the present invention always compensates for a constant screen size even when various deflection frequencies are input, while accurately compensating even the deviation of the back raster portion of the screen, thereby providing a stable screen.

Claims (3)

In the deflection stage of a video display device comprising a synchronization signal separation unit for separating the horizontal and vertical synchronization signal, and a vertical and horizontal deflection unit for supplying a deflection current to each deflection yoke according to the deflection frequency, A high pass filter for removing low pass noise by filtering horizontal sync signals and video signals received from the sync signal separating unit, and a horizontal sync signal generator for generating a sync signal frequency by receiving the filtered horizontal sync signals; A horizontal oscillator generating an oscillation frequency by the filtered horizontal synchronizing signal, a horizontal synchronizing signal determination unit for synchronizing a phase of the synchronizing signal frequency and an oscillation frequency to determine an input horizontal frequency, and the filtered horizontal synchronizing In order to calculate the horizontal position of the signal and the video signal, a horizontal position calculating unit having a plurality of counters, the magnitude and position of the phase-locked horizontal frequency is set as standard data, and then the horizontal size for each frequency is calculated. Compensates the horizontal size and position according to the movement value of the horizontal position calculated from the horizontal position calculator. And a microcomputer, a horizontal size of compensation means comprising a horizontal processing unit data to be output to the horizontal deflection unit in the after adjusting the position and Cri compensation value based on the horizontal size and the position data of the microcomputer; and, A low pass filter for filtering the low frequency noise of the vertical sync signal and the video signal received from the sync signal separator, and a vertical sync signal generator for receiving the filtered vertical sync signal and generating a sync signal frequency; A vertical oscillator for generating an oscillation frequency by the filtered vertical synchronization signal, a synchronization signal discrimination unit for synchronizing a phase of the synchronization signal frequency and the oscillation frequency to determine an input vertical frequency, and the filtered vertical synchronization In order to calculate the vertical position between the signal and the video signal, a vertical position calculation unit having a plurality of counters, and the size and position of the phase-synchronized vertical frequency as a standard, and then the vertical size correction table for each frequency By using the calculated value of the vertical position calculated from the vertical position calculator. The microcomputer to compensate for vertical size and position, a vertical size compensating means comprising a data processing section for outputting a vertical deflection to a vertical section in a coordinated to compensate for the size and position value according to the vertical size and position data of the microcomputer; Screen size automatic compensation circuit, characterized in that consisting of. The automatic screen size compensation circuit of claim 1, wherein each counter of the horizontal position calculator calculates a front-poch period, a video signal period, and a back-poch period between the horizontal synchronization signal and the image signal. . 2. The counters of claim 1, wherein each counter of the vertical position calculator is processed from vertical to black to display a front-poch period, a vertical image signal period, and a back-poch period between the vertical synchronization signal and the image signal which do not appear on the screen. Automatic screen size compensation circuit, characterized in that the calculation.