KR930000981B1 - Color-signal moving detecting circuit of composition-video signals - Google Patents

Abstract

The circuit detects color signal movement utilizing the peak detection theory. The circuit includes a one line delayer (1) for delaying complex video signal by one line, a 524 line delayre (2) for delaying video signal by one frame, an adder and subtractors (4a,4b) for extracting brightness signal and color signal from complex video signal, bandpass filters (5,6) for detecting moving signal for high frequency color signal and for cutting off low frequency color signal, an absolute value calculating unit (7) for calculating absolute value of the detected moving signal, a boundary value calculating unit (10) for removing noise component in color signal and latches (15,16,18) for outputting moving signal of color signal.

Description

Chromatic Signal Motion Detection Circuit of Composite Video Signal

1 is a chromaticity signal motion detection circuit diagram of a conventional composite video signal.

2 is a chromaticity signal motion detection circuit of the composite video signal of the present invention.

(A) of FIG. 3 is a characteristic curve of the absolute value calculator 7 of FIG. 2, (b) is a characteristic curve of the absolute value calculator 7a of FIG. 2, and (c) is an absolute value calculator of FIG. 9) Characteristic curve diagram.

* Explanation of symbols for main parts of the drawings

1,3: 1 line delay 2: 525 line delay

4: luminance / chromatic separation unit 4a: adder

4b: Subtractor 5a, 5b, 6, 6a: Bandpass Filter

7,7a, 9: Absolute value calculator 10: Threshold comparator

11: peak detector 12, 13, 15, 16, 18: latch circuit

14: comparator 17: inverter

The present invention is to detect the chromaticity signal movement in a composite video signal in NTSC type color television. In particular, the chromaticity of the composite video signal for detecting the motion of color components more accurately by using Peak Gumpyron. The present invention relates to a signal motion detection circuit.

The chromaticity signal motion detection circuit of the conventional composite video signal has one frame for outputting a signal delayed by one frame from the composite video signal CV by using the composite video signal CV as shown in FIG. The delayer 1, an adder 2 which adds and outputs the current signal of the composite video signal CV and the signal delayed by the one-frame delayer 1, and an output of the adder 2 as inputs A high pass filter (3) for removing the luminance signal (Y), the motion signal (M) and the noise (N) of the chromatic component outputted from the high pass filter (3) are inputted to calculate the absolute value, and then the noise ( An absolute value calculator 4 for removing N) and a comparator 5 for outputting a motion chromaticity signal C by comparing the absolute value of the absolute value calculator 4 with a predetermined threshold value.

The operation of the chromaticity signal motion detection circuit of the conventional composite video signal configured as described above and the problems thereof will be described as follows.

After the composite video signal CV is delayed by one frame through the one-frame delay unit 1, it is added by the adder 2 together with the current signal of the composite video signal CV, and the luminance signal Y and the motion signal of the chromaticity component are added. (M) and noise (N) are output as the sum signal. In this case, when the signal output from the adder 2 is a stop signal (still picture), only the components of the pure luminance signal Y exist, but in the case of the same picture (motion signal), the chroma signal C cannot be completely removed. The chroma signal C is expressed by moving by C and output.

The motion signal M and the noise N of the chroma component of the luminance signal Y output from the adder 2 are applied to the high pass filter 3 to remove the luminance signal Y component, and Only the motion signal M is passed through and applied to the absolute value calculator 4. Therefore, the absolute value calculator 4 receiving the movement of the chroma signal C takes the difference between the signal delayed by one frame in the one frame delayer 1 as an absolute value, and the absolute value TH in the comparator 5 is the threshold value TH. ) Is output as a motion signal of the chroma signal (C).

However, such a conventional chromaticity signal detection circuit is not a problem for the movement of the chromaticity signal at a low frequency, but there is a problem that the movement cannot be detected for a minute portion of the high frequency component of the chromaticity signal.

SUMMARY OF THE INVENTION In view of such a conventional problem, the present invention provides a bandpass filter for filtering a current signal of a composite video signal and a one-frame delayed signal around a color subcarrier, and an absolute value calculator for converting an output value of the bandpass filter into an absolute value. And a comparator comprising an adder that adds the output value of the absolute value calculator as an input, a threshold comparator for comparing the absolute value with a predetermined threshold value, and a latch circuit and comparator for outputting a delayed signal in sample units. According to the signal applied to the input of the present invention to output the current signal and the one-sample delayed signal value of the composite image signal, this will be described in detail with reference to the accompanying drawings.

)에 연결함과 아울러 인버터(17)를 통하여 래치회로(15)의 출력제어단자 (

)에 연결하여 구성한 것으로, 도면의 설명중 미설명부호 11은 피크 검파부를 나타낸다.FIG. 2 is a chromaticity signal motion detection circuit diagram of the composite video signal of the present invention. As shown therein, the output side of the one-line delay device 1 for delaying one line by inputting the composite video signal CV is added to the adder 4a; A subtractor 4b, connected to one side input of the adder 4a and the subtractor 4b of the luminance / chromatance separator 4 separating the luminance signal Y and the chroma signal C, and delaying 524 lines. Connected to the other inputs of the adder 4a and the subtractor 4b via the unit 2 and the one-line delay unit 3, and output signals of the composite video signal CV and the 524 line delay unit 2; Is an absolute value calculator (7), (7a) which passes through band pass filters (5, 6) and (5a, 6a) for filtering around a color carrier signal of 3.58 [MHz] and then calculates the output signal as an absolute value. Are connected to the inputs on each side of the adder 8 again, and the output of the adder 8 is an absolute value system that limits its output value. Connected to an input of a threshold comparator 10 for outputting in comparison with a predetermined threshold through the instrument 9, and the output of the threshold comparator 10 outputs a signal value delayed by one sample. ) also coupled to an input terminal (P ₂₎ of the comparator 14 through as well as one sample through a latch circuit 13 for outputting the delayed signal value is then coupled to an input terminal (P ₁₎ of the comparator 14 and The output of the threshold comparator 10 and the output of the latch circuit 12 pass through the latch circuits 15 and 16, respectively, and then detect the movement of the chroma signal C through the latch circuit 18 again. The output terminal Q of the comparator 14 and the output control terminal of the latch circuit 16

And the output control terminal of the latch circuit 15 through the inverter 17

In Fig. 11, reference numeral 11 denotes a peak detector.

If described in detail the effects of the present invention configured as described above.

After the composite video signal CV is delayed by one line through the one-line delayer 1, the composite video signal CV is applied to one input of the adder 4a and the subtractor 4b configured in the luminance / chromatance separator 4 and the 524-line delayer. (2) and one line delayed through the one-line delayer 3, and then applied to the other input of the adder 4a and the subtractor 4b, the adder 4a and the subtractor 4b add or subtract it and add the latitude signal. (y) and chroma signal (C), respectively.

On the other hand, the composite video signal CV is applied to the band pass filters 5 and 6, and is delayed by one frame through the one line delay unit 1 and the 524 line delay unit 2, and then the band pass filter 5a ( 6a), the band pass filters 5, 5a, 6, and 6a transmit the current signal of the composite video signal CV and the one-frame delayed signal before and after 3.58 [MHz], respectively. By second-order filtering, only the motion signal of the chroma component (C) at high frequency is detected, and the chroma component of the low frequency is blocked. When the movement of the chroma signal C at a high frequency is detected and applied to the absolute value calculators 7 and 7a, the absolute value calculators 7 and 7a are converted to absolute values as shown in FIGS. 3A and 3B. It is added via the adder 8 and applied to the absolute value calculator 9.

Therefore, the absolute value calculator 9 is a threshold comparator 10 for removing noise included in the chroma signal C, which is limited to the absolute value applied through the adder 8 as shown in FIG. 3C. The threshold comparator 10 removes the noise of the chromaticity signal C in comparison with a predetermined threshold value.

In other words, if the threshold value is set to 7, the data value indicates ″ φ ″ up to φ-6, and the value ″ 127 ″ up to addresses 7 through 127 indicates noise. Assuming a data value of ″ 2 ″ in the range, noise is represented by ″ 2 ″ in the address of the threshold, and the data value is ″ φ ″.

)에 인가되므로 그 래치회로(16)는 출력차단상태로 되고, 또한 그 고전위신호는 인버터(17)에서 저전위신호로 반전되어 래치회로(18)의 출력제어단자(

)에 인가되므로 그 래치회로 (18)가 출력 인에이블 상태로 된다.After the above-described process, the output signal Xn of the threshold comparator 10 is applied to the latch signal 15, and the output signal Xn is delayed by one sample through the latch circuit 12 to signal Xn. -1), and is applied to the input terminal P ₂ and the latch circuit 16 of the comparator 14, the signal (Xn-1) is delayed one sample again through the latch circuit 13, the signal (Xn) -2) and is applied to the input terminal P ₁ of the comparator 14. Therefore, the comparator 14 compares the one-sampled delayed signal Xn-1 output from the latch circuit 12 and the two-sampled delayed signal Xn-2 output from the latch circuit 13, thereby comparing the one-sampled delayed signal Xn. If -1) is greater than the two-sample delayed signal Xn-2, a high potential signal is output to the output terminal Q thereof, and this high potential signal is output control terminal of the latch circuit 16 (

Is applied to the latch circuit 16, and the high potential signal is inverted to a low potential signal by the inverter 17, thereby outputting the output control terminal of the latch circuit 18.

), The latch circuit 18 is in the output enable state.

Therefore, at this time, the current signal of the threshold comparator 10 passes through the latch circuits 15 and 18 and is detected as a motion signal of the chroma signal C. FIG.

)에 인가되므로 그 래치회로(16)가 출력 인에이블 상태로 되고, 또한 이때 상기 저전위 신호는 인버터(17)에서 고전위신호로 반전되어 래치회로(15)의 제어단자(

)에 인가되므로 그 래치회로(15)는 출력 차단 상태로 된다.On the contrary, when the two-sample delayed signal Xn-2 is greater than the one-sample delayed signal Xn-1, the low potential signal is output to the output terminal Q of the comparator 14, and the low potential signal is latch circuit 16. Output control terminal ()

), The latch circuit 16 is in the output enable state, and at this time, the low potential signal is inverted into a high potential signal in the inverter 17 to control the terminal of the latch circuit 15 (

), The latch circuit 15 is in the output interruption state.

Therefore, at this time, the signal Xn-1, which is delayed by one sample in the latch circuit 12, passes through the latch circuits 16 and 18 and is detected as a motion signal of the chroma signal C. FIG.

As described above, the present invention has the effect of more accurately detecting the movement of the chroma signal by using the latch circuit and the comparator.

Claims (1)

The composite video signal CV is connected to the adder 4a and the subtractor 4b of the luminance / chromatance separator 4 through one line delayer 1 and connected to one terminal of the 524 line delayer 2. And a first line delayer 3 to be connected to the other terminal of the adder 4a and the subtractor 4b, and the output signal of the composite video signal CV and the 524 line delayer 2 Through the bandpass filters (5,6) and (5a, 6a) for filtering before and after the color carrier signal, respectively, an absolute value calculator (7), (7a), which calculates the absolute value, is added through the adder (8). The latch circuit 15 via an absolute value calculator 9 for calculating an absolute value and a threshold comparator 10 for comparing the output side of the adder 8 to an absolute value and a predetermined threshold value. Input terminal P of the comparator 14 through a latch circuit 12 connected to the input side of the < RTI ID = 0.0 > 1 < / RTI > ₂ ) and an input terminal P ₁ of the comparator 14 through the latch circuit 13 for delaying one sample and connecting to the input side of the latch circuit 16, and outputting the comparator 14. The terminal Q is connected to the output control terminal of the latch circuit 16 (

And an output control terminal of the latch circuit 15 through the inverter 17

And the outputs of the latch circuits (15) and (16) are output through the latch circuits (18).

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