JP3240711B2 - Y / C separation filter device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a Y / C separation filter device.

[0002]

2. Description of the Related Art In a conventional Y / C separation filter device, an NTS comprising a low-frequency luminance signal and a high-frequency carrier chrominance signal is used.
A carrier color signal is obtained by subtracting a composite color video signal of the C system and a signal different from each other in one frame period.
Selection for selecting a three-dimensional filter, a two-dimensional filter (comb filter) for obtaining a carrier color signal by subtracting a composite color video signal and a signal different in one horizontal period thereof, and a three-dimensional filter and a two-dimensional filter Circuit and
A motion detection circuit for detecting the motion of the composite color video signal, wherein when no motion is detected, the output of the three-dimensional filter is selected, and when motion is detected, the output of the two-dimensional filter is selected. A carrier color signal is obtained, and a luminance signal is obtained by subtracting the carrier color signal from the composite color video signal.

In this conventional Y / C separation filter device,
When motion is detected in the composite color video signal, if the line correlation of the composite color video signal is low when the output of the two-dimensional filter is selected by the selection circuit, dot interference occurs in the obtained carrier color signal. There was a drawback that there was a fear.

In order to solve the drawbacks of the conventional example, a one-dimensional filter having a frequency characteristic of supplying a composite color video signal and passing a carrier color signal to the conventional Y / C separation filter circuit described above is used. Bandpass filter)
And a determination circuit for determining whether the line correlation of the composite color video signal is higher or lower than the reference value. If motion is detected in the composite color video signal and the line correlation is higher than the reference value, An improved Y / C separation filter device has been proposed in which the output of a dimensional filter is selected, and when the output is lower than a reference value, the output of a one-dimensional filter is selected.

[0005]

In such a conventional example, when a composite color video signal is compared with a signal having a different horizontal period for one horizontal period, if the line correlation is low, the level of the carrier color signal is the same even if the line correlation is the same. There is a case where the level of the high frequency component of the luminance signal is low and a case where the level of the high frequency component of the luminance signal is high while the level of the carrier chrominance signal is low.

In such a conventional example, although the former case is not a problem, if the output of the one-dimensional filter is selected in the latter case, there is a possibility that the resolution of the reproduced image is reduced and cross-color is generated in the reproduced image.

In such a conventional example, a mode using a three-dimensional filter and a mode not using the three-dimensional filter are provided.
When these are switched, the output of the one-dimensional filter is selected in the latter mode compared to the former mode even if the line correlation of the composite color video signal is the same. There is a high possibility that the resolution of the reproduced image is reduced, and a cross color is generated in the reproduced image.

In view of the above, the present invention reliably converts a carrier color signal and a luminance signal from a composite color video signal regardless of the presence or absence of motion in the composite color video signal, the level of line correlation, and the characteristics of a reproduced image. It is intended to propose a Y / C separation filter device capable of separating the image and reducing the resolution of the reproduced image and the occurrence of cross color in the reproduced image depending on the characteristics of the reproduced image. is there.

Further, the present invention provides a composite color image in the case where a two-dimensional filter and a one-dimensional filter are used, and a mode in which a three-dimensional filter is used and a mode in which the three-dimensional filter is not used are switched. The carrier color signal and the luminance signal can be reliably separated from the composite color video signal regardless of the presence or absence of motion in the signal, the level of the line correlation, and the mode switching, and the mode switching reduces the resolution of the reproduced image. It is intended to propose a Y / C separation filter device which can reduce occurrence of cross color in a reproduced image.

[0010]

According to a first aspect of the present invention, a composite color video signal and a signal having a different period of one (or two) frame period are subtracted, as shown in FIGS. 1 and 2, for example. Three-dimensional filters F-3Da and F-3Db for obtaining a carrier color signal, a one-dimensional filter F-1D having a frequency characteristic of supplying a composite color video signal and passing the carrier color signal, a composite color video signal and its 1
(Or 2) Two-dimensional filters F-2Da and F2-for obtaining a carrier color signal by subtracting signals having different horizontal period periods.
Db, one-dimensional filter F-1D and two-dimensional filter F
-2Da, a first selection circuit 16 for selecting the output of F2-Db, and a three-dimensional filter F-3Da, the output of F-3Db and the output of the first selection circuit 16 are selected, and the output carrier color signal is selected. A second selection circuit 6 for obtaining, a motion detection circuit 7 for detecting the motion of the composite color video signal, a determination circuit 17 for determining whether the line correlation of the composite color video signal is higher or lower than a reference value, and a composite color video signal A reference value generator 18 capable of changing a reference value according to the characteristics of the signal; a subtractor 9 for subtracting the composite color video signal and the output carrier color signal from the second selection circuit 6 to obtain an output luminance signal; Having.

Then, the second selection circuit 6 is controlled by the detection output of the motion detection circuit 7, and when no motion is detected, the outputs of the three-dimensional filters F-3Da and F-3Db are selected. Is detected, the output of the first selection circuit 16 is selected, the first selection circuit 16 is controlled by the output of the determination circuit 17, and when the correlation is lower than the reference value, the output of the one-dimensional filter F-1D is The output is selected, and when the correlation is higher than the reference value, the two-dimensional filter F-2
The output of Da, F-2Db is selected.

According to a second aspect of the present invention, as shown in FIGS. 1, 3 and 4, for example, a carrier color signal is obtained by subtracting a composite color video signal and its one (or two) frame period different signal. Three-dimensional filters F-3Da, F-3D
b, a one-dimensional filter F-1D having a frequency characteristic of supplying a composite color video signal and passing a carrier color signal;
Two-dimensional filters F-2Da and F-2Db for obtaining a carrier color signal by subtracting a composite color video signal and a signal having a different one (or two) horizontal period, and a one-dimensional filter F-1D and a two-dimensional filter F- A first selection circuit 16 for selecting the outputs of 2Da and F-2Db, an output of the three-dimensional filters F-3Da and F-3Db, and a first selection circuit 16
A second selection circuit 6 for selecting an output of the first and second selection circuits 16, and a third selection circuit 20 for selecting an output of the first and second selection circuits 16 and 6 by a mode switching signal to obtain an output carrier color signal;
Motion detection circuit 7 for detecting the motion of the composite color video signal
A determination circuit 17 for determining whether the line correlation of the composite color video signal is higher or lower than a reference value, a reference value generator 18 capable of switching the reference value by a mode switching signal, a composite color video signal and a third selection A subtracter 9 for subtracting an output from the circuit 20 to obtain a luminance signal.

The second selection circuit 6 is controlled by the detection output of the motion detection circuit 7 to select the outputs of the three-dimensional filters F-3Da and F-3Db when no motion is detected. Is selected, the output of the first selection circuit 16 is selected, the output of the determination circuit 17 controls the first selection circuit 16, and when the correlation is lower than the reference value, the output of the one-dimensional filter is selected. When the correlation is higher than the reference value, the two-dimensional filters F-2Da and F-
The 2Db output is selected.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment (1) of the present invention will be described below with reference to FIGS. 1 and 2. However, together with an embodiment (2) to be described later, analog processing or digital processing is possible. Is also good. T1 is an input terminal to which the composite color video signal A of the NTSC system is supplied. This composite color video signal is composed of a low-frequency luminance signal and a high-frequency carrier chrominance signal, and the high-frequency part of the luminance signal band and the low-frequency part of the carrier color signal band partially overlap.

F-3Da and F-3Db are three-dimensional filters, respectively. In the three-dimensional filter F-3Da, the composite color video signal supplied to the input terminal T1 is subtracted by the subtracter 2a from the signal of the composite color video signal supplied to the input terminal T1 through the one-frame delay unit 1a. The carrier chrominance signal is separated. In the three-dimensional filter F-3Db,
The subtracter 2b converts the signal of the composite color video signal supplied to the input terminal T1 through the one-frame delay unit 1a from the signal of the composite color video signal supplied to the input terminal T1 through the one-frame delay units 1a and 1b. Subtraction is performed to separate the carrier color signals. Then, the three-dimensional filters F-3Da, F-
After each output of 3Db is supplied to the adder 4 through the 1/4 multipliers 3a and 3b and added, the delay time is 1
H + α (where H is the horizontal period, α is the minute delay time)
Is supplied to one fixed contact of the selection circuit 6 as the carrier chrominance signal B through the delay compensator 5 of FIG.

The composite color video signal A from the input terminal T1
Is supplied to a subtractor 9 through a delay compensator 8 having a delay time of 1H + β (where β is a very short time) and a carrier chrominance signal passing therethrough. Pass filter 10
(One-dimensional filter F-1D) to separate the carrier color signal.

F-2Da and F-2Db are two-dimensional filters (comb filters). Two-dimensional filter F-2Da
In the subtractor 12a, the delay time of the carrier chrominance signal from the one-dimensional filter F-1D is one horizontal cycle period.
The carrier color signal from the one-dimensional filter F-1D is subtracted from the signal G passed through to obtain a carrier color signal. In the two-dimensional filter F-2Db, the subtracter 12b converts the delay time of the carrier chrominance signal from the one-dimensional filter F-1D from the signal G passed through the delay unit 11a for one horizontal period to the one-dimensional filter F-1D. The carrier chrominance signal is obtained by subtracting the signal passing through the delay units 1a and 1b for one horizontal period of the delay time of the carrier chrominance signal.

The respective carrier chrominance signals from the two-dimensional filters F-2Da and F-2Db are は multipliers 13a and 13a, respectively.
b, the carrier chrominance signals H and J whose levels have been reduced to 1/2 are respectively supplied to the fixed contacts of the selection circuit 16 and supplied to the adder 14 where they are added.
The carrier chrominance signal I whose level is halved by the multiplier 15 is supplied to the fixed contact of the selection circuit 16.

A signal G of the carrier chrominance signal from the one-dimensional filter F-1D delayed by one horizontal period by the delay unit 11a of the two-dimensional filter F-2Da is supplied to the fixed contact of the selection circuit 16.

The correlation detector 17 detects a line correlation between the carrier chrominance signal from the one-dimensional filter F-1D and the signals before and after the carrier chrominance signal, and compares it with the reference level from the one-dimensional (1D) threshold controller 18. The respective carrier color signals G, H,... Supplied to the selection circuit 16 based on the comparison result L are compared.
One of I and J is selected, the selected carrier color signal K is supplied to the selection circuit 6 as the carrier color signal C, and the composite color video signal supplied to the input terminal T1 by the motion detector 7 When the motion is not detected, the carrier color signal B is selected, and when the motion is detected, the carrier color signal C is selected. And the output terminal TC
Output carrier color signal E. The motion detector 7
Is output with the absolute value of the difference between the composite color video signal supplied to the input terminal T1 and its different signal for four frame periods as it is or after being compared with a reference level.

Then, the subtracter 9 subtracts the output carrier color signal E from the signal, which has been delayed by one frame period by the delay unit 1a of the composite color video signal from the input terminal T1, through the delay compensator 8. By being done
An output luminance signal F is output from the output terminal TY.

Next, the correlation detector 17 will be described with reference to FIG. In the correlation detector 17, the carrier chrominance signal (0H) from the one-dimensional filter F-1D, the carrier chrominance signal (1H) delayed by one horizontal period, and the carrier chrominance signal (1H) further delayed by one horizontal period. Carrier color signal (2
H) are input terminals 17T0, 17T1, and 17T2, respectively.
The carrier color signal (0H) and the carrier color signal (2H) are subtracted from the carrier color signal (1H) by the subtracters 17a and 17b, respectively. Each of the subtraction outputs is a carrier chrominance signal including a non-correlated luminance signal component, and is supplied to the low-pass filter 1
After being supplied to 7e and 17d and integrated, they are supplied to level comparators 17g and 17h, respectively, and are compared with the reference level Vref from the 1D threshold controller 18. Then, the comparison outputs from the level comparators 17g and 17h are supplied to a combination circuit 17i and combined, and a control signal L is obtained from an output terminal 17T4.
6.

The 1D threshold controller 18 comprises a potentiometer 18a connected between the power supply + B and the ground, and a reference level Vref from a movable terminal of the potentiometer 18a.
Is obtained.

Next, how the selection circuit 16 is selected according to the control signal L from the correlation detector 17 will be described. Comparator 17g, at 17h, a low-pass filter 17e from the reference level Vref, respectively 17f outputs the subtraction obtained was compared outputs of the L _1, L _2. Then, a control signal L corresponding to the comparison outputs L ₁ and L ₂ is obtained and supplied to the selection circuit 16 to select one of the carrier color signals G, H, I and J.

When the comparison outputs L ₁ , L ₂ are L ₁ , L ₂ ≦ 0, the combinational circuit 17i outputs a video signal of a certain line (a carrier color signal including a high-frequency component of an uncorrelated luminance signal) and its signal. It is determined that there is no correlation between the video signals of the previous and next lines, and the selection circuit 16 selects the carrier color signal G.

When the comparison outputs L ₁ and L ₂ are L ₁ > 0, L ₂ ≦ 0
Alternatively, when L ₁ > L ₂ > 0, the combination circuit 17i determines whether the correlation between the video signal of a certain line and the video signal of the subsequent line is high and there is no correlation between the video signal of the previous line and Or, it is determined to be low, and the selection circuit 16 selects the carrier color signal H.

When the comparison outputs L ₁ and L ₂ are L ₂ > 0, L ₁ ≦ 0
Alternatively, when L ₂ > L ₁ > 0, the combination circuit 17i has a high correlation between the video signal of a certain line and the video signal of the previous line, and there is no correlation between the video signal of the subsequent line. Alternatively, it is determined that the carrier color signal J is low.
Is selected.

When the comparison outputs L ₁ and L ₂ are L ₁ = L ₂ > 0, the combination circuit 17i has a high correlation between the video signal of a certain line and the video signals of the lines before and after the certain line, and the correlation is high. Are determined to be the same, and the selection circuit 16
In, the carrier color signal I is selected.

Now, the comparison output L of the comparators 17g and 17h
_{When 1} and L ₂ are L ₁ and L ₂ ≦ 0, as described above, the selection circuit 16 selects the signal G delayed by one horizontal period by the delay unit 11 a of the carrier color signal from the one-dimensional filter F-1D. Is done. In this case, there is no problem when the video signal of a certain line and the video signal of a line adjacent thereto consist of a carrier color signal having a relatively high level and a high-frequency luminance signal having a relatively low level, respectively. When the video signal and the video signal of the line adjacent thereto are respectively composed of a relatively low-level carrier chrominance signal and a relatively high-level high-frequency luminance signal, the carrier from the one-dimensional filter F-1D is output from the output terminal TC. The signal G delayed by one horizontal period by the color signal delay unit 11a is output as it is to the output terminal TC as the output carrier color signal E, and the subtractor 9 delays the composite color video signal from the input terminal T1. 1 in 1a
An output luminance signal obtained at an output terminal TY is obtained by subtracting a carrier chrominance signal including a relatively high-level luminance signal from a signal delayed by the frame period and delayed by the delay compensator 8. The high-frequency component of F is considerably lost. For this reason, the resolution of the reproduced image is reduced, and a cross color is generated in the reproduced image.

In such a case, when the level of the carrier color signal is determined to be low by looking at the reproduced image by the monitor receiver, the reference level Vref from the 1D threshold controller 18 can be increased as appropriate. The comparison outputs L ₁ and L ₂ are L ₁ ,
It is unlikely that L ₂ ≦ 0, and the selection circuit 16
Carrier color signal delay unit 11a from dimensional filter F-1D
Thus, the possibility that the signal G delayed by one horizontal period is selected is reduced, the resolution of the reproduced image is reduced, and the occurrence of cross color in the reproduced image can be avoided.

Incidentally, contrary to the above, the comparators 17g, 17h
The comparison output L _1, L ₂ of the low-pass filter 17e, 1
When the reference level Vref is obtained by subtracting the reference level Vref from each output of 7f, if the reference level Vref is lowered, the resolution of the reproduced image is reduced, and the occurrence of cross color in the reproduced image can be avoided. .

Next, an embodiment (2) will be described with reference to FIGS. First, the configuration of the embodiment (2) will be described with reference to FIG. 3. In FIG. 3, most of the components common to the embodiment (1) of FIG.
The description of the components common to the embodiment (1) is omitted. In the embodiment (2), the three-dimensional filters F-3Da, F-3
Db, two-dimensional filters F-2Da and F-2Db, and 1
A mode using all of the three-dimensional filters F-1D, that is, a 3D-2D-1D mode, and a mode not using the three-dimensional filters F-3Da and F-3Db among these filters, that is, a 2D-1D mode. According to the input terminal T
In response to the mode switching signal M from M, the selection circuits 6, 1
6 is provided, and a variable range of the reference level Vref in the 1D threshold controller 18 can be changed according to the two modes.

In the selection circuit 20, the carrier chrominance signal D from the selection circuit 6, ie, the carrier chrominance signal N, and the carrier chrominance signal K, ie, the carrier chrominance signal P from the selection circuit 16, are transferred to the mode from the input terminal TM. Switching by the switching signal M, the output terminal T
An output carrier color signal E is output from C. The subtracter 9 subtracts the output carrier color signal E from the signal of the composite color video signal from the delay compensator 8 delayed from the input terminal T1 by one frame period by the delay unit 1a. The output luminance signal F is output from the terminal TY.

In the 2D-1D mode, 3D-
Compared to the case of the 2D-1D mode, the selection circuit 16 sets the carrier chrominance signal from the one-dimensional filter F-1D to 1
It is more likely that the signal G delayed by the horizontal period will be selected. In this case as well, there is no problem when the video signal of a certain line and the video signal of a line adjacent thereto consist of a relatively high-level carrier color signal and a relatively low-level high-frequency luminance signal, respectively. And the video signal of a line adjacent thereto consist of a relatively low level carrier chrominance signal and a relatively high level high frequency luminance signal, respectively, from the output terminal TC to the one-dimensional filter F-1D. The signal G delayed by one horizontal period by the carrier color signal delay unit 11a is output as it is to the output terminal TC as the output carrier color signal E, and the subtractor 9 delays the composite color video signal from the input terminal T1. 1 in vessel 1a
An output luminance signal obtained at an output terminal TY is obtained by subtracting a carrier chrominance signal including a relatively high-level luminance signal from a signal delayed by the frame period and delayed by the delay compensator 8. The high-frequency component of F is considerably lost. For this reason, the resolution of the reproduced image is reduced, and a cross color is generated in the reproduced image.

In the 2D and 1D modes, 1
If higher reference level Vref than D threshold controller 18, compares the output L _1, L ₂ is L _1, L ₂ ≦ 0 potential is lowered consisting, by the selection circuit 16, the one-dimensional filter F-1D
The possibility that the signal G delayed by one horizontal period is selected by the delay unit 11a of the carrier color signal is reduced, the resolution of the reproduced image is reduced, and the occurrence of cross color in the reproduced image is avoided. be able to.

Therefore, in the 1D threshold controller 18, the potentiometers 18a and 18b can be changed in conjunction with each other, and the reference level of the potentiometer 18b is always higher than the reference level of the potentiometer 18a. In the 3D-2D-1D mode, the changeover switch 18c is set to the potentiometer 18a.
Side, and in the 2D-1D mode, the potentiometer 18b is selected.

In this embodiment (2), the 1D threshold value controller 18 generates a fixed low reference level in the 3D-2D-1D mode, and generates a fixed high reference level in the 2D-1D mode. Levels may be generated, and these reference levels may be switched by the switch 18c.

Also in this case, when the comparison outputs L ₁ and L ₂ of the comparators 17g and 17h are obtained by subtracting the reference level Vref from the outputs of the low-pass filters 17e and 17f, 3D-2D-1D Reference level Vre in mode
f, the reference level Vref in the 2D-1D mode.
Is reduced, the resolution of the reproduced image is reduced in the 2D-1D mode, and it is possible to avoid the occurrence of cross color in the reproduced image.

In each of the above-described embodiments, the carrier chrominance signal from the one-dimensional filter F-1D is converted to the two-dimensional filter F-2D.
a, F-2Db, but a composite color video signal may be directly supplied from the delay unit 1a.

In each of the above embodiments, the composite color video signal is of the NTSC system. However, in the case of the PAL system, the delay units 1a and 1b used in the three-dimensional filters F-3Da and F-3Db are used. Are respectively selected as two frame period periods, and the two-dimensional filters F-2Da and F-2Db are selected.
The delay times of the delay units 11a and 11b used in the above may be set to two horizontal cycle periods. In that case,
Motion detection is performed by comparing the composite color video signal and a signal different from the composite color video signal for four frame periods.

[0041]

According to the first aspect of the present invention described above, regardless of the presence or absence of motion in the composite color video signal, the level of the line correlation, and the characteristics of the reproduced image, the carrier color signal and the luminance are obtained from the composite color video signal. A Y / C separation filter device capable of reliably separating signals, reducing the resolution of a reproduced image and reducing cross-color in the reproduced image due to the characteristics of the reproduced image. Can be.

According to the second aspect of the present invention, a mode in which a two-dimensional filter and a one-dimensional filter are used, and a mode in which a three-dimensional filter is used and a mode in which no three-dimensional filter is used are provided, and these modes are switched. In the above, regardless of the presence or absence of motion in the composite color video signal, whether the line correlation is high or low, and the mode switching, it is possible to reliably separate the composite color video signal from the composite color video signal, and the mode switching reduces the resolution of the reproduced image. / Y which can reduce the occurrence of cross color in reproduced images
A C separation filter device can be obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment (1) of the present invention.

FIG. 2 is a block diagram showing details of a correlation detector and a 1D threshold controller of the embodiment (1).

FIG. 3 is a block diagram showing an embodiment (2).

FIG. 4 is a block diagram showing details of a correlation detector and a 1D threshold controller of the embodiment (2).

[Explanation of symbols]

 F-3Da, F-3Db Three-dimensional filter F-2Da, F-2Db Two-dimensional filter F-1D One-dimensional filter (bandpass filter) 6 Selection circuit 7 Motion detector 9 Subtractor 16 Selection circuit 17 Correlation detector 18 1D Threshold controller 18a Potentiometer 18b Potentiometer

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04N 9/44-9/78

Claims (5)

(57) [Claims] 1. A three-dimensional filter that obtains a carrier color signal by subtracting a composite color video signal and a signal having a different period of one (or two) frame periods, and supplies the composite color video signal and passes the carrier color signal A one-dimensional filter having a frequency characteristic to be applied; a two-dimensional filter for obtaining a carrier color signal by subtracting the composite color video signal and a signal having a different one (or two) horizontal period; and the one-dimensional filter and the two-dimensional filter A first selection circuit for selecting an output of the filter; a second selection circuit for selecting an output of the three-dimensional filter and an output of the first selection circuit to obtain an output carrier color signal; A motion detection circuit for detecting the motion of the signal; a determination circuit for determining whether the line correlation of the composite color video signal is higher or lower than a reference value; A reference value generator capable of changing the reference value in accordance with the characteristics of the video signal; and a subtractor for subtracting the composite color video signal and the output carrier color signal from the second selection circuit to obtain an output luminance signal. The second selection circuit is controlled by the detection output of the motion detection circuit, and when no motion is detected, the output of the three-dimensional filter is selected. When motion is detected, The output of the first selection circuit is selected, the first selection circuit is controlled by the output of the determination circuit, and when the correlation is lower than the reference value, the output of the one-dimensional filter is selected. When Y is higher than the reference value, the output of the two-dimensional filter is selected. 2. A three-dimensional filter for obtaining a carrier color signal by subtracting a composite color video signal and a signal having a different period of one (or two) frame periods, and supplying the composite color video signal and passing the carrier color signal A one-dimensional filter having a frequency characteristic to be applied; a two-dimensional filter for obtaining the carrier color signal by subtracting the composite color video signal and a signal having a different one (or two) horizontal period; A first selection circuit for selecting the output of the three-dimensional filter, a second selection circuit for selecting the output of the three-dimensional filter and the output of the first selection circuit, and the first and second signals in response to a mode switching signal A third selection circuit for selecting an output of the selection circuit to obtain an output carrier color signal; a motion detection circuit for detecting a motion of the composite color video signal; A determination circuit for determining whether a line correlation of a color video signal is higher or lower than a reference value; a reference value generator capable of switching the reference value by the mode switching signal; a composite color video signal and the third selection circuit And a subtracter for obtaining a luminance signal by subtracting the output of the three-dimensional filter when no motion is detected by controlling the second selection circuit based on the detection output of the motion detection circuit. Is selected, and when a motion is detected, the output of the first selection circuit is selected, and the output of the determination circuit is used to control the first selection circuit so that the correlation is lower than the reference value. The output of the one-dimensional filter is selected when the correlation is higher than the reference value, and the output of the two-dimensional filter is selected when the correlation is higher than the reference value. . 3. The three-dimensional filter is configured to obtain the carrier color signal by subtracting the composite color video signal and the signal before and after one (or two) frame periods thereof, respectively. The Y / C separation filter device according to claim 1 or 2, wherein: 4. The two-dimensional filter is configured to obtain the carrier color signal by subtracting the composite color video signal and the signal before and after the 1 (or 2) horizontal period, respectively. Claim 1, characterized in that:
4. The Y / C separation filter device according to 2 or 3. 5. The Y / C separation filter device according to claim 1, wherein the one-dimensional filter is a band-pass filter.