JPH0678331A - Luminance signal chrominance signal separator circuit - Google Patents

Abstract

PURPOSE:To separate a luminance signal and a chrominance signal optimizingly by extracting a sum signal between a chrominance signal output and a luminance signal output as a chrominance signal and extracting a sum signal between the chrominance signal and a signal passing through a phase adjustment circuit as a luminance signal. CONSTITUTION:A noncorrelation detection circuit 13 fetches a luminance signal Y of a 2-dimension Y/C separation circuit 12 to detect a noncorrelation part, a detection signal is processed into a pulse and outputted to a switch 15 as a switching signal. The switch 15 is open at correlation and the output signal Y of the circuit 12 is not outputted to an adder section 16. However, when the circuit 13 detects the noncorrelation part, the switch 15 is closed and the signal Y is outputted to the adder section 16, where the signal is added to the chrominance signal C and the result is extracted as the color signal at an output terminal Cout. On the other hand, a phase adjustment circuit 14 delays the input video signal for a prescribed time and outputs the result to the adder section 17. The adder section 17 adds the signal passing through the circuit 14 and the chrominance signal at the output terminal Cout and a luminance signal is extracted at a luminance signal output terminal Yout.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a luminance signal / color signal separation circuit, and more particularly to a device for handling a PAL system video signal, such as a TV (television receiver) or a V receiver.
The present invention relates to a luminance signal color signal separation circuit used for separating a luminance signal (Y signal) and a color signal (C signal) from an input video signal in a TR (video tape recorder) or the like.

[0002]

2. Description of the Related Art FIG. 7 shows a conventional example.
7A is a block diagram of a luminance signal / color signal separation circuit, FIG.
(B) is a diagram showing the output characteristics of the luminance signal / color signal separation circuit.

In FIG. 7, 1 is a band pass filter (BP).
F), 2 is a low pass filter (LPF), IN is a video signal input terminal, C _OUT is a color signal output terminal, and Y _OUT is a luminance signal output terminal.

Conventionally, in a device handling a PAL video signal, when a luminance signal (Y signal) and a color signal (C signal) are separated, a luminance signal color signal separation as shown in FIG. A circuit (Y / C separation circuit) was used.

The luminance signal / chrominance signal separation circuit is composed of a bandpass filter 1 and a lowpass filter 2. The video signal input to the input terminal IN is input to the bandpass filter 1 and the lowpass filter 2. .

Then, the bandpass filter 1 outputs a color signal from the output terminal C _OUT by passing only a signal within a predetermined frequency band of the input video signal.

Further, the low-pass filter 2 outputs the luminance signal from the output terminal C _OUT by passing only the signal in the frequency band lower than the predetermined frequency of the input video signal.

As described above, the luminance signal and the color signal are separated. In this case, the output characteristics of the luminance signal (Y) and the color signal (C) obtained from the output terminals Y _OUT and C _OUT are
For example, it becomes like FIG. 7 (B).

As shown, the luminance signal is 4.43 MH.
_The signal has a frequency lower than _Z , and the color signal is 4.43.
The signal is near MH _Z.

[0010]

SUMMARY OF THE INVENTION The above-mentioned conventional devices have the following problems. (1) Since the luminance signal is a signal obtained by passing through the low pass filter, the high frequency component is removed. As a result, the horizontal resolution on the screen deteriorates.

(2) a luminance component within the color signal output band,
Due to the remaining color components in the luminance signal output band,
Cross color and dot interference occur. (3), a luminance signal color signal separation circuit using a 2H line comb filter has been considered as an alternative to the luminance signal color signal separation circuit shown in FIG. Then, the degree of separation of color signals is significantly deteriorated (the signals cannot be separated substantially).

It is an object of the present invention to solve such conventional problems and improve the characteristics by always making it possible to optimally separate the luminance signal and the color signal.

[0013]

FIG. 1 is a diagram for explaining the principle of the present invention. In FIG. 1, the same parts as those in FIG. 7 are designated by the same reference numerals. Reference numeral 11 is a band limiting circuit, and 12 is 2
A three-dimensional luminance signal / color signal separation circuit (hereinafter referred to as “two-dimensional Y / C separation circuit”) 13 is a non-correlation part detection circuit, 14 is a phase adjustment circuit, 15 is a switch, and 16 and 17 are addition parts.

In order to solve the above problems, the present invention has the following configuration. (1) In a luminance signal color signal separation circuit for inputting a PAL system video signal and separating it into a luminance signal (Y) and a color signal (C), in the video signal, a predetermined frequency including a color signal Band limiting circuit 11 for passing band signals
And the signal that has passed through the band limiting circuit 11 is input, and 2
A two-dimensional luminance signal color signal separation circuit 12 that separates a luminance signal (Y) and a color signal (C) by three-dimensional signal processing and a luminance signal (Y) output of the two-dimensional luminance signal color signal separation circuit 12 are fetched. , A non-correlation part detection circuit 13 for detecting a non-correlation part of the video signal from the signal, and open / close control based on the non-correlation part detection signal of the non-correlation part detection circuit 13, and the luminance signal ( Y) A switch 15 for opening and closing a signal line to the output terminal side of the output and a phase adjusting circuit 14 for adjusting the phase of the video signal are provided, and the color signal (C) of the two-dimensional luminance signal color signal separating circuit 12 is provided. ) Output,
The addition signal with the luminance signal (Y) output outputted via the switch 15 is used as a color signal at the output terminal C.
_OUT to the take-out, and a color signal of the output terminal C _OUT, the addition signal of the signal passed through the phase adjusting circuit 14 (adding the color signal as a negative signal), as a luminance signal, an output terminal Y
It was taken out to _OUT.

(2) In the above configuration (1), when the decorrelation detection circuit 13 does not detect a decorrelation portion, the switch 15 is opened and the two-dimensional luminance signal color signal separation circuit 12 is operated. Only the color signal (C) output is taken out to the output terminal C _OUT as a color signal.

(3) In the configuration (1), when the decorrelation detection circuit 13 detects a decorrelation, the switch 15 is closed and the two-dimensional luminance signal / color signal separation circuit 1
The addition signal of the 2 color signal (C) output and the luminance signal (Y) output is taken out to the output terminal C _OUT as a color signal.

(4) In the above configuration (1), the two-dimensional luminance signal color signal separation circuit 12 and the decorrelation part detection circuit 1
3, the comb filters 19 and 20 were used.

[0018]

The operation of the present invention based on the above configuration will be described with reference to FIG. -1: When a PAL video signal is input to the input terminal Vin, this signal is input to the band limiting circuit 11 and the phase adjusting circuit 14.

Then, the band limiting circuit 11 passes only the signal in the predetermined frequency band (near the color signal) of the input video signal. -2: The two-dimensional Y / C separation circuit 12 separates the signal that has passed through the band limiting circuit 11 into a luminance signal (Y) and a chrominance signal (C) and outputs them. However, in the non-correlation part, Y
/ C cannot be separated.

-3: In the decorrelation detection circuit 13, the above 2
The luminance signal (Y) output of the dimension Y / C separation circuit 12 is fetched and the non-correlation part is detected. That is, the two-dimensional Y / C separation circuit 12 outputs the luminance signal component (Y), and
When the color signal (C) component is included in the signal,
The decorrelation detection circuit 13 detects a decorrelation part.

The decorrelation detection signal detected by the decorrelation detection circuit 13 is pulsed and output to the switch 15 as a switching signal (CTRL). -4: In the switch 15, the switching signal (CTR
When there is no L) (correlation), the switch is open,
Luminance signal (Y) output from the two-dimensional Y / C separation circuit 12
Is not output to the addition unit 16.

However, the decorrelation detection circuit 13 detects the decorrelation part, and the switching signal (CTRL) causes the switch 1 to switch.
When output to 5, the switch closes. Therefore, 2
The luminance signal (Y) output of the dimensional Y / C separation circuit 12 is output to the addition unit 16 through the switch 15, where the color signal (C) output of the two-dimensional Y / C separation circuit 12 and the addition are performed. To be done.

-5: Then, the addition signal of the addition section 16 is taken out to the output terminal C _OUT as a color signal. Therefore, when the decorrelation part detection circuit 13 does not detect the decorrelation part, the color signal (C) of the two-dimensional luminance signal color signal separation circuit 12
Only the output is taken out to the output terminal C _OUT as a color signal,
When the non-correlation part is detected, the addition signal of the color signal (C) output of the two-dimensional luminance signal color signal separation circuit 12 and the luminance signal (Y) output is taken out to the output terminal C _OUT as a color signal. .

-6: On the other hand, the phase adjusting circuit 14 delays the input video signal of the PAL system for a predetermined time and then outputs it to the adding section 17. -7: In the addition unit 17, the signal (luminance signal + color signal) that has passed through the phase adjustment circuit 14 and the color signal of the output terminal C _OUT are added (the color signal is added as a negative signal) to obtain the luminance signal. The luminance signal is taken out from the output terminal Y _OUT of.

In this way, the optimum luminance signal and chrominance signal can always be separated, and the characteristics can be improved.

[0026]

Embodiments of the present invention will be described below with reference to the drawings. 2 to 6 are diagrams showing an embodiment of the present invention, FIG. 2 is a block diagram of a luminance signal / color signal separation circuit, and FIG.
Shows a luminance signal / color signal separation circuit, FIG. 4 shows FIG.
3 is a waveform diagram of each part (when the C component has a non-correlation part), FIG. 5 is a waveform diagram of each part of FIGS. 2 and 3 (when the Y component has a non-correlation part), and FIG. 6 is an output characteristic. It is the figure which showed.

2 to 6, the same parts as those in FIGS. 1 and 7 are designated by the same reference numerals. Further, 18 is a bandpass filter (BPF), 19 and 20 are comb filters, 21
Is a pulse circuit, and 22 is a delay line (DL).

Description of Configuration of Luminance Signal / Color Signal Separation Circuit by Block Diagram ... See FIG. 2. In this embodiment, the band limiting circuit 11, the two-dimensional Y / C separation circuit 12, and the phase adjusting circuit shown in FIG. 14 respectively
Bandpass filter (BPF) 18, comb filter 1
9 is an example in which the delay line (DL) 22 is used.

That is, as shown in FIG. 2, the luminance signal / chrominance signal separation circuit of the present embodiment has a bandpass filter 1
8, a comb filter 19, a decorrelation detection circuit 13, a delay line (DL) 22, a switch 15, etc., and the decorrelation detection circuit 13 is composed of a comb filter 20 and a pulse conversion circuit 21.

The band-pass filter 18 is connected to the input terminal Vin, inputs a PAL system video signal, and passes a signal in a predetermined frequency band (color signal pass band).

The comb filter 19 receives the signal passed through the band pass filter 18 and separates it into a color signal C and a luminance signal Y by two-dimensional signal processing.
It is a separation filter.

The decorrelation detection circuit 13 includes a comb filter 1
The output of the luminance signal (Y) of 9 is taken in, and the internal filter 20 detects the non-correlation part from the output of the luminance signal (Y).

Then, the pulsing circuit 21 pulsates the decorrelation detection signal, and outputs this pulse as a switching signal (CTRL) of the switch 15. The switch 15 is a switch whose switching is controlled by a switching signal (CTRL) from the decorrelation detection circuit 13, and opens and closes a signal line of the luminance signal (Y) output of the comb filter 19 to the output terminal side. It is a thing.

The delay line (DL) 22 is connected to the input terminal Vin, and is for adjusting the phase of the PAL video signal by inputting it and delaying it for a predetermined time.

The adder 16 adds the color signal (C) output of the comb filter 19 and the luminance signal (Y) output of the comb filter 19 output via the switch 15 (the switch 15 is not This is a part which is closed only when the correlation part is detected), and the addition signal from the addition part 16 is taken out to the output terminal C _OUT as a color signal (C).

The adder 17 is provided with the delay line (D
L) a signal whose phase is adjusted by 22 (input video signal),
This is a part for adding the color signal (C) of the output terminal C _OUT . In the addition unit 17, the color signal (C) at the output terminal C _OUT is added as a negative signal (the difference between the signal that has passed through the delay line 22 and the color signal is obtained), and the added signal is used as the luminance. The signal (Y) is output to the output terminal Y _OUT .

Description of Configuration of Luminance Signal / Color Signal Separation Circuit--See FIG. 3 FIG. 3 is a detailed circuit diagram of the block diagram shown in FIG. In the circuit of FIG. 3, a 2-line comb filter (2H correlation) is used as the comb filter 19 to separate the luminance signal (Y) and the color signal (C).

Further, the comb filter 20 uses a 2-line comb filter (2H correlation), and a luminance signal (Y),
The color signal (C) is separated, but in this case, the signal is taken out only from the color signal (C) side and the non-correlation part is detected.

Since the other structure is the same as that of FIG. 2, its explanation is omitted. : Description of the operation of the luminance signal / color signal separation circuit ... FIG.
Referring to FIG. 3, the operation of the luminance signal / color signal separation circuit having the above configuration will be described.

-1: When a PAL video signal is input to the input terminal Vin, this signal is input to the bandpass filter 18 and the delay line (DL) 22. Then, the band-pass filter 18, among the input video signal, (a pass band of the color signal, the frequency band around the frequency f ₁ = 4.4336MH _Z) predetermined frequency band to pass only signals.

-2: The comb filter 19 separates the signal passed through the bandpass filter 18 into the luminance signal (Y) and the color signal (C) by the two-line correlation and outputs it. However, Y / C separation cannot be performed in the non-correlation part.

-3: In the decorrelation detection circuit 13, the luminance signal (Y) output of the comb filter 19 (frequency f ₂ =
(Near 4.4297 M _Z ), and first, by taking out the color signal (C) component by the comb filter 20,
The 2-line decorrelation part is detected.

That is, the comb filter 19 cannot separate the signals, and the luminance signal (Y) is output to the color signal (C).
When the component is included, in the comb filter 20,
Detect uncorrelated parts.

The color signal component (non-correlation part detection signal) detected by the comb filter 20 is pulsed by the pulsing circuit 21 and output to the switch 15 as a switching signal (CTRL).

-4: In the switch 15, when there is no switching signal (CTRL) (correlation), the switch is open, and the luminance signal (Y) output of the comb filter 19 is output to the adding section 16. do not do.

However, the decorrelation detection circuit 13 detects the decorrelation part, and the switching signal (CTRL) causes the switch 1 to switch.
When output to 5, the switch 15 is closed. For this reason,
The luminance signal (Y) output of the comb filter 19 is output to the addition unit 16 through the switch 15, and is added to the color signal (C) output of the comb filter 19.

-5: Then, the addition signal of the addition section 16 is taken out to the output terminal C _OUT as a color signal. Therefore, when the non-correlation part detection circuit 13 does not detect the non-correlation part, only the color signal (C) output of the comb filter 19 is taken out to the output terminal C _OUT as the color signal (C).

However, when the non-correlation part is detected, the color signal (C) output of the comb filter 19 and the luminance signal (Y) are output.
An addition signal to the output (in this case, substantially the same as the output signal of the bandpass filter 18) is taken out to the output terminal C _OUT as a color signal.

-6: On the other hand, in the delay line 22,
The input PAL video signal is delayed for a predetermined time and then output to the addition unit 17. -7: In the addition unit 17, the signal (luminance signal + color signal) that has passed through the delay line 22 and the color signal of the output terminal C _OUT are added (the color signal is added as a negative signal) to obtain the luminance signal. The luminance signal is taken out to the output terminal Y _OUT .

In this case, the adding section 17 calculates (luminance signal +
Color signal)-(color signal) = (luminance signal)
The luminance signal (Y) is taken out to the output terminal Y _OUT . : Description of operation based on waveform chart of each part ... Figs. 2 to 6
Reference Hereinafter, the operation of the luminance signal / color signal separation circuit shown in FIGS. 2 and 3 will be described with reference to the waveform charts of FIGS. 4, 5, and 6.

FIG. 4 is a waveform diagram of each part when the color signal (C) component has a non-correlation part (when a luminance forward color signal is input). FIG. 5 shows a luminance signal (Y) component non-correlation part. Waveform of each part in the case of having (with multi-burst input), FIG.
6A shows the output characteristic of the correlation unit, and FIG. 6B shows the output characteristic of the non-correlation unit.

4 and 5, (a) is a video signal input to the input terminal V _in , (b) is an output signal of the bandpass filter 18, and (c) is a comb filter 1.
9 is a color signal output, (d) is a luminance signal output of the comb filter 19, (e) is an output signal of the comb filter 20,
(F) is the output signal of the pulsing circuit 21, (g) is the signal of the color signal output terminal C _OUT , (h) is the delay line (D
L) 22 output signal, (i) luminance signal output terminal Y
Indicates the _OUT signal.

-1: Normal operation with correlation When the input signal shown in (a) above is normal and "correlated", the operation is as follows.

In this state, the luminance signal (Y) and the color signal (C) can be separated by the comb filter 19. Therefore, the luminance signal (Y) output of the comb filter 19 does not include the color signal component (C), and the comb filter 20 does not output the color signal component. That is,
No decorrelation part is detected.

Therefore, since the pulse switching circuit 21 does not output the switch switching signal (CTRL), the switch 15 is in the open state. Therefore, the luminance signal (Y) output of the comb filter 19 is not output to the adder 16.

In such a state, the comb filter 19
The color signal (C) separated by is passed through the adder 16 as it is, and is output to the color signal output terminal C _OUT . That is,
The color signal separated by the comb filter 19 is output to the output terminal C.
_Take out from _OUT .

On the other hand, the signal that has passed through the delay line (DL) 22 (the signal obtained by delaying the input video signal) is
In the adder 17, the color signal is added to the signal output to the output terminal C _OUT (the color signal is added as a negative signal), and the separated luminance signal (Y) is taken out from the luminance signal output terminal Y _OUT. .

In this case, in the adder 17, as described above, (luminance signal + color signal)-(color signal) = (luminance signal)
Process and output the separated luminance signal (Y) to output terminal Y
_Take it out.

As described above, during normal operation with correlation, the color signal (C) separated by the comb filter 19 can be taken out from the output terminal C _OUT , and the color signal (C) is extracted.
Then, a luminance signal (Y) is obtained from the input signal (video signal).

-2: Description of Operation when Detecting Non-Correlation Portion The operation when a non-correlation portion occurs in the input signal of the above waveform diagram (a) is as follows.

In this state, the above waveform diagram (c),
As shown in (d), the comb filter 19 cannot normally separate the luminance signal and the chrominance signal. Therefore, when (a) the color signal has a decorrelation, the luminance signal (Y) output includes a color signal component, and (b) when the luminance signal has a non-correlation, the luminance signal (Y) output is 2 The Y signal remains in the line (error).

At this time, as shown in the waveform diagram (e), the comb filter 20 separates the luminance signal and the chrominance signal to separate the chrominance signal component from the input signal containing the chrominance signal component. Further, the error signal is extracted from the Y signal including the error component.

When a signal can be taken out from the color signal (C) output of the comb filter 20, the non-correlation part is detected. Therefore, as shown in the above waveform diagram (f), the pulsing circuit 21 detects the signal. Pulse the signal. The pulse generated at this time is the switching signal (CTR
L) is output.

The switch 15 is switched by the switching signal (CTRL) from the pulsing circuit 21,
The switch is closed and the luminance signal (Y) output of the comb filter 19 is output to the adder 16.

By this operation, the adder section 16 outputs the color signal (C) of the comb filter 19 (a signal that cannot be Y / C separated) and the luminance signal (Y) output of the comb filter 19 (Y). (/ C signal not separated) is added.

At this time, the adder 16 adds the signals (Y, C) separated by the comb filter 19 once, so that the signal on the input side of the comb filter 19, that is, the bandpass filter 18 is again added. Return to the output signal of.

By doing so, a signal (color signal) equivalent to the output signal of the bandpass filter 18 can be taken out from the output terminal C _OUT as shown in the waveform diagram (g). That is, when the non-correlation part is detected, Y / Y of the comb filter 19 is detected.
The color signals are substantially separated by the bandpass filter 18 without using the C separation function (because the separation cannot be performed). In this case, the color signal side functions as a bandpass filter.

On the other hand, as shown in the waveform diagram (h), the delay line (DL) 22 delays the input video signal by a predetermined time and outputs it. Then, this signal is added (added as a negative signal) to the color signal of the output terminal C _{OUT in} the addition unit 17.

As a result, the luminance signal (Y) as shown in the above waveform diagram (i) can be taken out from the output terminal Y _OUT . In this case, the luminance signal side functions as a band elimination filter (BEF).

As described above, the optimum luminance signal and the optimum color signal can always be automatically selected and output. FIG. 6 shows the output characteristics of the luminance signal and the color signal output from the output terminal C _OUT and Y _OUT .

In FIG. 6, the luminance signal and the chrominance signal in the correlating section have the output characteristics (the signals separated by the comb filter) shown in FIG. 6A, and the non-correlating section in FIG. 6B. The output characteristics (the signal separated by the bandpass filter and the band elimination filter) are shown in (1).

The signal of the correlation section shown in FIG. 6A is
It has good comb characteristics and a wide bandwidth.

[0073]

As described above, the present invention has the following effects. (1) In the above conventional example, since the high frequency component of the luminance signal is removed, the horizontal resolution tends to deteriorate. But,
In the present invention, the signals separated by the comb filter can be output at the time of correlation.

Therefore, signal separation can be performed without removing the high frequency component of the luminance signal. As a result, a high horizontal resolution is obtained. (2) In the above prior art, since the frequency separation method according to the LC filter, the color signals of the low frequency is output to the luminance signal and the luminance signal component of 4.43MH _Z vicinity is outputted to the color signal, Cross color, dot interference, etc. occurred.

However, in the present invention, since the signal separation is performed by the comb filter when the correlation signal is input,
Cross color, dot interference, etc. as described above are improved. (3) When detecting a non-correlation part in which signal separation cannot be performed by the comb filter, signal separation can be performed by a bandpass filter or the like similar to the conventional example, so that the signal separation performance can be improved as a whole.

(4) Since the correlation part and the non-correlation part are automatically separated to perform signal separation, optimum signal separation can always be performed.

[Brief description of drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is a block diagram of a luminance signal / color signal separation circuit according to an embodiment of the present invention.

FIG. 3 is a diagram showing a luminance signal / color signal separation circuit according to an embodiment of the present invention.

FIG. 4 is a signal waveform diagram of each part in FIGS. 2 and 3 (when the C component has a non-correlation part).

5 is a signal waveform diagram of each part in FIG. 2 and FIG. 3 (when the Y component has a non-correlation part).

FIG. 6 is a diagram showing output characteristics in an example of the present invention.

FIG. 7 is an explanatory diagram of a conventional example.

[Explanation of symbols]

 11 band limiting circuit 12 two-dimensional Y / C separation circuit 13 non-correlation part detection circuit 14 phase adjustment circuit 15 switch 16, 17 adder

Claims (4)

[Claims] 1. A luminance signal color signal separation circuit for inputting a PAL video signal and separating it into a luminance signal (Y) and a color signal (C), wherein a predetermined color signal among the video signals is included. A band limiting circuit (11) that allows signals in the frequency band to pass, and a signal that has passed through the band limiting circuit (11) are input and
A two-dimensional luminance signal color signal separation circuit (12) that separates a luminance signal (Y) and a color signal (C) by the dimension signal processing, and a luminance signal (Y of the two-dimensional luminance signal color signal separation circuit (12). ) An open / close control based on a decorrelation part detection circuit (13) which takes in an output and detects a decorrelation part of the video signal from the signal, and a decorrelation part detection signal of the decorrelation part detection circuit (13) A switch (15) for opening and closing a signal line for outputting the luminance signal (Y) to the output terminal side, and a phase adjusting circuit (14) for adjusting the phase of the video signal.
The color signal (C) output of the two-dimensional luminance signal color signal separation circuit (12) and the luminance signal (Y) output output via the switch (15) as the signal is taken out to an output terminal (C _OUT), and a color signal of the output terminal (C _OUT), the addition signal of the signal passed through the phase adjusting circuit (14) to (adds color signals as a negative signal) , A luminance signal color signal separation circuit characterized in that the luminance signal is taken out to the output terminal (Y _OUT ). 2. When the decorrelation detection circuit (13) does not detect a decorrelation part, the switch (15) is opened, and the color signal of the two-dimensional luminance signal color signal separation circuit (12) ( C) Output terminal (C _OUT ) with only output as color signal
The luminance signal / color signal separation circuit according to claim 1, wherein the luminance signal / color signal separation circuit is taken out. 3. When the decorrelation detection circuit (13) detects a decorrelation portion, the switch (15) is closed, and the color signal (C) of the two-dimensional luminance signal color signal separation circuit (12). 2. The luminance signal color signal separation circuit according to claim 1, wherein an added signal of the output and the luminance signal (Y) output is taken out to the output terminal (C _OUT ) as a color signal. 4. The two-dimensional luminance signal color signal separation circuit (1
2. The luminance signal chrominance signal separation circuit according to claim 1, 2 or 3, wherein a comb filter (19, 20) is used for the second) and the decorrelation part detection circuit (13).