JPH0828886B2 - Color video signal forming circuit - Google Patents

Description

The present invention relates to a color video signal forming circuit.

[Outline of Invention]

The present invention, in the color video signal forming circuit, by providing a separation unit for the signal component of the frequency band of the carrier color signal and the 1H comb filter in the transmission path of the luminance signal, without impairing the band of the luminance signal, the luminance signal And interference between color signals is prevented.

[Conventional technology]

In a conventional video tape recorder (VTR), when recording / reproducing a color video signal, normally, a luminance signal Y and a carrier color signal C are separated and recorded on a magnetic tape in a recording system, and a luminance signal is reproduced in a reproducing system. And a carrier color signal are mixed (added) to obtain a color video signal.

[Problems to be solved by the invention]

However, in the conventional VTR as described above, the luminance signal Y
When the frequency band of the carrier color signal is wide, there is a problem that interference occurs between the signal component of the frequency band of the carrier color signal and the carrier color signal.

For example, when recording / reproducing a color video signal, if the Y / C separation circuit of the recording system uses line correlation, the uncorrelated component _CNS of the carrier chrominance signal C may remain in the luminance signal system. . This uncorrelated component is reproduced by both the luminance signal system and the chrominance signal system, but automatic phase control (AP
Since C) processing is performed, does not match the phase of the non-correlation component C _NS of the carrier chrominance signal reproduced by both the signal system, zero beat interference occurs when the sum of the carrier chrominance signal C and luminance signal Y I do.

Further, the high-frequency component of the luminance signal Y is mixed into the carrier color signal system, and so-called cross-color interference occurs in which an incorrect color appears in a reproduced image, for example, in a portion of fine diagonal stripes.

In view of such a point, an object of the present invention is to provide a color video signal forming circuit capable of preventing interference between a wide band luminance signal and a carrier color signal and improving the quality of a reproduced image.

[Means for solving problems]

The color video signal forming circuit of the present invention is a color video signal forming circuit for forming a color video signal by adding a wide band luminance signal including a band of a carrier color signal and a carrier color signal. Is obtained by separating the signal component of the frequency band of the carrier color signal and the luminance signal in which the signal component of the frequency band of the carrier color signal is omitted, and the signal component of the separated frequency band of the carrier color signal is connected to one horizontal cycle delay line. The output of the comb filter is amplitude-controlled, and the output of the amplitude-controlled comb filter and the luminance signal in which the signal component in the frequency band of the carrier color signal is omitted are added. And the output of the adder and the carrier color signal are added.

[Action]

With this configuration, interference between the carrier color signal and the broadband luminance signal can be prevented.

〔Example〕

An embodiment of the color video signal forming circuit according to the present invention will be described below with reference to FIGS. 1 and 2.

 FIG. 1 shows the configuration of an embodiment of the present invention.

In FIG. 1, (1) and (2) are input terminals to which a luminance signal Y and a carrier color signal C are respectively supplied,
The input terminal (2) is directly connected to the adder (3), and the output of the adder (3) is led to the output terminal (4). The luminance signal Y of the input terminal (1) is commonly supplied to the delay line (11) and the bandpass filter (12), and the subtractor (13) outputs the output of the bandpass filter (12) from the output of the delay line (11). Is subtracted. The pass band of the filter (12) is set equal to the frequency band of the carrier color signal C, and the delay time τ of the delay line (12) is set equal to the delay time of the band filter (12). The output of the subtractor (13) is supplied to the adder (3) via the second adder (5).

(20) is an addition type comb filter, which has a delay line (2
1) and an adder (22), the delay time of the delay line (21) is set to one horizontal period (1H). The output of the bandpass filter (12) is directly supplied to the adder (22) and is also supplied to the adder (22) via the 1H delay line (21). The output of the adder (22) has its amplitude reduced by half by a coefficient unit (attenuator) (25) and is supplied to the adder (5).

Next, the operation of the embodiment shown in FIG. 1 will be described with reference to FIG.

As shown in FIG. 2A, when a luminance signal Y having a wide frequency spectrum up to a frequency f _W (for example, 5 MHz) far exceeding the color subcarrier frequency f _SC is supplied to the input terminal (1), As shown in, the signal component of the same frequency spectrum as the frequency spectrum of the carrier chrominance signal C having a bandwidth of ± 0.5 MHz centering on f _SC is separated by the band filter (12). In the subtractor (13), the separated signal component (spectrum) is subtracted from the input luminance signal (spectrum), and the output of the subtractor (13) is the carrier color signal band of the carrier color signal band as shown in FIG. The spectrum is a partially deleted spectrum in which a part is deleted.

By the way, the addition comb filter (20) is shown in FIG.
As shown in, f _SC ± n · f _H is the attenuation region, and f _SC ± (2n−1) · f _H / 2 is the pass region, where n is an integer.

As is well known, in the NTSC system, the color subcarrier frequency f _SC
The be selected to 1/2 odd multiples of the horizontal scanning frequency f _H, the luminance signal Y energy is concentrated in the vicinity of integral multiples of the frequency of f _H
And the carrier chrominance signal C. Then, if f _SC is selected in this way, the carrier color signal C
If you delay 1H, the phase will be reversed and offset.

The comb filter (20) having the above-mentioned characteristics is provided in FIG.
When the luminance signal of the frequency spectrum as shown in is supplied from the bandpass filter (12), the output of the coefficient unit (25) becomes
Microscopically, it has a comb-shaped spectrum as shown by extending the frequency range in FIG. In addition, the envelope is shown in FIG.
The frequency band is limited as shown in.

The output of the band-limited comb spectrum of the coefficient unit (25) and the output of the partial depletion spectrum of the subtractor (13) are
Combined in the second adder (5) and added (5)
As is conceptually shown in FIG. 6E, the output of is a partial comb spectrum in which the missing part of the partial spectrum is supplemented by the band-limited comb spectrum.

According to this embodiment, the carrier color signal component having no line correlation
Even if C _NS is mixed in the luminance signal Y of the input terminal (1),
Separated by bandpass filter (12) and subtractor (13),
Since it is removed by the comb filter (20) having the characteristics as described above, zero beat interference does not occur with the non-correlation component of the color signal type.

Further, the comb filter (20) limits the spread of the energy spectrum of the frequency band component of the carrier color signal in the luminance signal Y. Therefore, even if the high frequency component of the luminance signal Y is at a high level, the crossing is performed. Color interference is suppressed.

The comb filter (20) basically allows the entire spectrum of the luminance signal Y to pass therethrough, so that the horizontal resolution is not impaired.

Next, another embodiment of the color video signal forming circuit according to the present invention will be described with reference to FIGS. 3 and 4.

The configuration of another embodiment of the present invention is shown in FIG. This third
In the figure, the portions corresponding to those in FIG.

In FIG. 3, the luminance signal Y of the input terminal (1) is commonly supplied to the band elimination filter (trap) (14) and the subtractor (15), and the subtractor (15) causes the trap (14).
Is subtracted from the luminance signal Y. The center frequency of the trap (14) is set equal to f _SC . Traps (14)
Is directly supplied to the second adder (5), and the output of the subtractor (15) is passed through the comb filter (20) and the coefficient unit (25) to the second adder (5). ) Is supplied to. The other structure is the same as that shown in FIG.

 The operation of the embodiment shown in FIG. 3 is as follows.

Of the broadband luminance signal Y supplied to the input terminal (1), the signal component centering on f _SC is attenuated by the trap (14), and the output of the trap (14) is as shown in FIG. 4A. In addition, there is a partially deleted spectrum in which the vicinity of f _SC is deleted in a V shape. The output of the trap (14) is subtracted from the broadband luminance signal Y from the input terminal (1) in the subtractor (15), and the subtracter (1
The output of 5) is an inverted V-shaped spectrum centered on f _SC .

The output of the subtractor (15) is supplied to a comb filter (20) having a frequency characteristic as shown in FIG.
The output of 5) becomes a band-limited comb spectrum (not shown) of an inverted V-shaped envelope in the same manner as the above.

The output of the band-limited comb spectrum of the coefficient unit (25) and the output of the partially deleted spectrum of the trap (14) are combined in the second adder (5), and the output of the adder (5) is As conceptually shown in FIG. 9B, the partial comb spectrum is a partial comb spectrum in which the missing part is supplemented by the band-limited comb spectrum.

The embodiment shown in FIG. 3 has the same effects as the embodiment shown in FIG. 1 described above, and further has the advantage that the structure is further simplified, such as not requiring a delay line.

Although the attenuation region due to the trap (14) is narrow, there is no particular problem because the energy spectrum of the carrier color signal is concentrated in the vicinity of f _{SC in} the macro.

FIG. 5 shows a specific configuration of the transmission path of the luminance signal Y in the embodiment of FIG. In FIG. 5, parts corresponding to those in FIG. 3 are designated by the same reference numerals, and redundant description will be omitted.

In Fig. 5, the input resistor (14r) and the capacitor (1
4c) and coil (14l) are connected in series and trap (1
4) is configured, and the luminance signal Y from the input terminal (1) is
It is supplied to the base of a collector-grounded transistor (31) through a resistor (14r), and further, via a capacitor (14c) and a coil (14l), the emitter of a base-grounded transistor (32). Is supplied to. The output of this transistor (32) is supplied to the base of a third transistor (33) whose collector is connected to ground.

The emitter output of the transistor (31) is the resistor (34)
A fourth transistor (35) with a grounded base connection via
Supplied to the emitter of. The emitter output of the third transistor (33) is supplied to the emitter of the fourth transistor (35) via the resistor (36) and a 1H delay line (21) using a charge coupled device (CCD) is used. ) And resistors (37)
Is supplied to the emitter of the transistor (35) via. The collector output of the transistor (35) is led to the terminal (6). (7) is a power supply terminal.

 The operation of the circuit shown in FIG. 5 is as follows.

Since the series resonance frequency of the capacitor (14c) and the coil (14l) is set to f _SC and the input resistance of the transistor (32) is small, the input of the transistor (31), and therefore its output, is the same as in FIG. It becomes a partial deletion spectrum as shown in. On the other hand, the emitter input of the transistor (32) has an inverted V-shaped spectrum centered on f _SC , which is appropriately amplified to have the same level as the emitter output of the transistor (31) from the emitter of the transistor (33). Is output with.

When setting the resistance values R ₃₄ , R ₃₆ and R ₃₇ of the resistors (34), (36) and (37) to 2R ₃₄ = R ₃₆ = R ₃₇ , the input side of the 1H delay line (21) And the sum of the currents supplied from the output side to the emitter of the transistor (35) is from the transistor (31) to the transistor (35).
At the same level as the current supplied to the emitter of the transistor (35), the emitter input of the transistor (35) becomes a partial comb spectrum in which the cutout portion is supplemented by the band limited comb spectrum as shown in FIG. 4B.

〔The invention's effect〕

As described above in detail, according to the present invention, the transmission path of the luminance signal is provided with the separating unit for the signal component of the frequency band of the carrier color signal and the 1H comb filter, so that the luminance signal band is not damaged. A color video signal forming circuit capable of improving the quality of a reproduced image by preventing interference between a wide band luminance signal and a color signal can be obtained.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of a color video signal forming circuit according to the present invention, FIG. 2 is a spectrum diagram for explaining the operation of the embodiment of FIG. 1, and FIG. FIG. 4 is a block diagram showing the configuration of another embodiment, FIG. 4 is a spectrum diagram for explaining the operation of the embodiment of FIG. 3, and FIG. 5 is a specific configuration of the main part of the embodiment of FIG. It is a connection diagram. (12) is a bandpass filter, (13) and (15) are subtractors, (1
4) Band elimination filter (trap), (20), (20S)
Is a comb filter, and (21) is a 1H delay line.

Claims (1)

[Claims] 1. A color video signal forming circuit for forming a color video signal by adding a wide band luminance signal including a band of a carrier color signal and a carrier color signal, wherein a signal in a frequency band of the carrier color signal from the luminance signal. A component signal is separated and a luminance signal in which a signal component in the frequency band of the carrier color signal is omitted is obtained, and the separated signal component in the frequency band of the carrier color signal is added to the comb filter including one horizontal period delay line. The output of the comb filter is amplitude-controlled, and the output of the amplitude-controlled comb filter and the luminance signal in which the signal component of the frequency band of the carrier color signal is lacking are added by an adder, and A color video signal forming circuit configured to add the output of the adder and the carrier color signal.