KR910004904Y1 - Point noise detecting circuit using correlation detecting - Google Patents

Abstract

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Description

Point noise elimination circuit by correlation detection

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

11: 1H delay circuit 12: Sync signal separator

13: adder 14, 19: low pass filter (LPF)

15: correlation detector 16: counter

17: Inverter 18: Antgate

SW1, SW2: first and second switch R1-R7: resistor

L1: Coil C1, C2: Condenser

Q1, Q2: transistor

The present invention relates to a circuit for improving the image quality of a video camera. In particular, 1H in the 262.5h of the video track is used so that there is a strong correlation between them before and after 1H of the luminance signal contents. When there is an uncorrelated color outline, it relates to a point noise elimination circuit by correlation detection that removes an uncorrelated signal only to obtain a better image.

Conventionally, when the color signal is slightly caught in the luminance signal content due to color deviation (commonly referred to as "mura") or jitter image jitter, disturbance noise of the dot (DOT) state of the screen configuration occurs. That is, after the luminance / color signal is separated from the composite video signal, unnecessary signals or color signals are caught due to phase shift and image blur in the luminance signal contents, and appear without color while noises such as dots appear when viewing the screen. Occurred. The luminance signal is always trapped at 3.58 MHZ, but only a part of the luminance signal is trapped in the trap peripheral band of 3.58 MHZ, resulting in poor image quality.

Accordingly, an object of the present invention is to provide a noise removing circuit for detecting a correlation between 1Hs of video traps 262.5H and using the same to remove unnecessary signals from luminance signals to obtain a clearer and clearer image.

In order to achieve the above object, the present invention uses a 1H delay line to determine the correlation by comparing the 1H sections of the luminance signals after separation of the luminance color signals, and the signal before 1H and the 1H delayed signal. After passing through the adder, the correlation detection unit determines the degree of correlation and outputs the output.

In this case, the synchronizing signal in the video signal is used as the clock of the counter through the synchronizing separation circuit, and the correlation output comes out. It is characterized in that it is configured to filter out noise signals caused by color phase shift and image blur by a filter and to eliminate point noise of unnecessary components of the luminance signal to obtain a higher quality image.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram of the present invention, wherein the luminance signal Y is connected to be input to one end of the adder 13 and connected to be input to the other end of the adder 13 via a 1H delay circuit 11. The output of the adder 13 is input to the output relationship detector 15, and the output of the correlation detector 15 is connected to be input to one end of the AND gate 18 through the inverter 17, and the luminance signal Y ) Is connected so that the output of the synchronization signal separation unit 12 connected to input the synchronization signal separation unit 12 is input to the clock input terminal T of the counter 16, and the output terminal Q of the counter 16 is connected. Is connected to the other end of the AND gate 18, and the output signal of the AND gate 18 is directly input to the control terminal C of the first switch SW1, while the second switch ( Connected to be inputted to the control terminal C of SW2, and connected to input the luminance signal Y to the low pass filter 14. The output terminal of the low pass filter 14 is connected to the second switch SW2, and the other end of the first switch SW1 is connected to the output terminal OUT through the low pass filter 19. The other end of the second switch SW2 is connected to the base end of the transistor Q1 through the resistors R4 and R5, and the emitter end of the transistor Q1 is connected to the output end OUT. The output terminal of the detector 15 is connected to the base terminal of the transistor Q2 through the resistor R1, the coil L1 is connected to the emitter of the transistor Q2, and the capacitor (C1) is connected from the coil L1. C1) and (C2) are connected. The capacitors C1 and C2 are connected between the base of the transistor Q1 and the connection node of the resistors R4 and R5.

Therefore, the operation relationship of the present invention with reference to the above-described configuration is obtained by separating the luminance / color signal from the video signal, performing FM modulation and low-pass conversion, and reproducing the correlation when the luminance signal contents become somewhat obstructed. To remove the point noise, the operation description is as follows.

First, the luminance signal Y is generated through a luminance / color separation circuit (not shown), which is a complete luminance signal Y without unnecessary signals or color signals. In 11), the adder 13 adds the luminance signal Y obtained by delaying the original luminance signal Y by 1 h. In other words, the same result as in the second drawing can be obtained. Correlation is detected when the luminance signal Y added by the adder 13 passes through the correlation detector 15. The correlation means that there is a difference in monochrome between pixels.

Accordingly, as shown in FIG. 2, the dotted arrow signal indicates a missing or incomplete luminance signal. Correlation is detected depending on the presence or absence of the luminance signal indicated by the arrow. The correlation detector 15 detects the non-correlation when there is an arrow signal, and detects the correlation when there is no arrow signal.

When there is a correlation in the correlation detector 15, a "high" output comes out, and when there is no correlation, a "low" output. When the correlation exists, the "high" signal becomes a "low" signal through the inverter 7 and is applied to the chip selector terminal CS and the end gate 18 of the counter 16. When the " low " signal is applied to the chip selector terminal CS of the counter 16, the counter 16 is disabled, so that there is no output at the output terminal Q. At this time, the output of the AND gate 18 is " Low "to open the second switch SW2. However, the output of the ant gate 18 becomes “high” through the inverter 20 to turn on the first switch SW1 so that the luminance signal Y passes through the low pass filter 14 for removing noise. The low pass filter 18 is output via the first switch SW1.

When there is a color signal or an unnecessary signal in the luminance signal contents due to mura (color phase shift), jitter, or image blur among the luminance signal Y contents separated through the luminance / color separation signal, the original luminance is increased by the adder 13. The signal y is added to the 1H delayed signal in the 1H delay circuit 11. As shown in the second diagram, the signal added by the adder 13 is inputted to the correlation detector 15 to detect correlation according to the presence or absence of a dotted arrow. For example, when there is little or no correlation including a dotted arrow in the state of missing or incomplete luminance signal, the correlation detecting unit 15 outputs a low or low level output. At this time, through the inverter 17, a "high" output comes out and is applied to the AND gate 18, and at the same time to the chip selector terminal CS of the counter 16 to enable the counter 16. At this time, the counter 16 counts the horizontal synchronous signal separated by the synchronous signal separator 12 from the luminance signal Y. The output of the counter 16 becomes "high" by the "high" of the inverter 17 when it matches the 1H synchronization signal with unnecessary signal from the correlation detection result. Becomes "high". At this time, the first switch SW1 is turned off and the second switch SW2 is turned on.

Here, when the point (DOT) noise generated slightly out of the horizontal sync 1H section with unnecessary signal content is matched with the horizontal sync section having an uncorrelated relationship by using the counter 16 using the horizontal sync signal, It works. In the correlation detector 15, a "low" signal or a low level signal is applied to the base of the transistor q2 via the resistors R1 and R2. When the "low" signal is turned on, the transistor Q2 is completely "ON". When the low level signal is applied to the base of the transistor Q2, the base current is somewhat lowered, thereby slightly changing the filtering value for removing the unnecessary signal of the luminance signal content by converting the value of the resistor R3.

Accordingly, the first switching SW1 is opened and the second switch SW2 is closed so that an uncorrelated signal in the luminance signal contents is filtered and output through an emitter follower of the transistor Q1. As a result, a signal having no correlation or less in the luminance signal contents can be obtained more clearly by filtering determined by the transistor Q2, the capacitors C1 and C2, and the coil L1.

Therefore, as described above, according to the present invention, an unnecessary signal section of the luminance signal contents passes through a 1H delay circuit and then is compared with the luminance signal to determine whether there is a correlation. In the non-correlation section, when the dot is matched with the H section, the dot is filtered through a noise filter to remove unnecessary signals from the luminance signal, thereby obtaining a clearer and clearer image.

Claims (1)

In a video camera recorder system having a luminance / chromatic signal separation circuit, the luminance signal (Y) is connected to be input to one end of the adder (13) and at the same time through the 1H delay circuit (11) of the adder (13). The input of the adder 13 is input to the correlation detector 15, and the output of the correlation detector 15 is input to one end of the AND gate 18 through the inverter 17. An output of the synchronization signal separation unit 12 connected to input the luminance signal Y to the synchronization signal separation unit 12 so as to input a counter 16 to the clock input terminal T, The output terminal Q of the counter 16 is connected to the other end of the AND gate 18 so that the output signal of the AND gate 18 is directly input to the control terminal c of the first switch SW1; At the same time, the controller 20 is connected to the control terminal c of the second switch SW2 through the inverter 20. And connect the luminance signal (Y) to the low pass filter (14), connect the output terminal of the low pass filter (14) to the second switch (SW2), and The other end is connected to the output terminal (out) through the low pass filter 19, and the other end of the second switch SW2 is connected to the base terminal of the transistor Q1 through the resistors R4 and R5, The emitter terminal of the transistor Q1 is connected to the output terminal OUT, the output terminal of the correlation detector 15 is connected to the base terminal of the transistor Q2 through the resistor R1, and the emitter of the transistor Q2 is connected. The coil L1 to the capacitor, and the capacitors C1 and C2 are connected from the coil L1, and the capacitors C1 and C2 are connected to the base and the resistors R4 and R5 of the transistor Q1. Point noise elimination circuit by correlation detection, characterized in that it is configured between connection nodes.