JPS637714B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a comb filter that separates a luminance signal and a chromaticity signal contained in a video signal.
In particular, the present invention relates to a comb-shaped filter that prevents cross-color interference and improves color resolution.

In video equipment such as television receivers, a luminance signal and a chromaticity signal contained in a video signal are separated and extracted, and these two signals are used to reproduce a color image. A comb filter is generally used as a circuit for separating a luminance signal and a chromaticity signal from this video signal.

FIG. 1 is a block diagram showing an example of a conventionally used comb filter, in which a video signal supplied to an input terminal 1 is amplified by a positive-phase amplifier 2 and a negative-phase amplifier 3, respectively. Output. Further, this video signal is outputted via a delay circuit 4 constituted by a delay line or the like having a delay time of one horizontal scanning period (1H). The adder 5 separates the luminance signal by adding the output of the positive-phase amplifier 2 and the output of the delay circuit 4, and the adder 6 separates the luminance signal by adding the output of the positive-phase amplifier 2 and the output of the delay circuit 4. As is well known, the chromaticity signal is extracted by combining the video signal and the video signal supplied from the delay circuit 4 1H period ago.

In this way, the luminance signal taken out from the adder 5 is corrected for vertical resolution by being added to the chromaticity signal supplied through the low-pass filter 8 of about 1.5 MHz in the adder 7. After it has cooled down, it is sent to the output end 9. In addition, the chromaticity signal output from the adder 6 is sent to the output end 11 via a bandpass filter 10 with a center frequency f ₀ of 3.58MHz in order to prevent cross color interference in areas where there is no line correlation. There is.

However, the comb filter having the above structure has a drawback that the band of the chromaticity signal becomes narrow and the color resolution decreases because the bandpass filter is interposed in the chromaticity signal system.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a comb filter that can prevent the occurrence of cross color interference and improve color resolution.

In order to achieve this purpose, the comb filter according to the present invention takes out the chromaticity signal directly in the part where there is line correlation without going through a bandpass filter, thereby fully utilizing the chromaticity signal band. The color resolution is increased by widening the width, and cross color interference is prevented by extracting chromaticity signals through a bandpass filter in areas where there is no line correlation. Hereinafter, the comb filter according to the present invention will be explained in detail with reference to the drawings.

FIG. 2 is a block diagram showing an embodiment of the comb filter according to the present invention, and the same parts as in FIG. 1 are designated by the same symbols and detailed explanation thereof is omitted. In the figure, 12 is a low-pass filter with f _c =2MHz connected to the output terminal of the adder 6, 13 is an amplifier that amplifies the output of the low-pass filter 12, and 14 is a rectifier that rectifies the output of the amplifier 13. Filter 12, amplifier 1
3 and the rectifier 14 constitute a line correlation detection section. A delay circuit 15 delays the chromaticity signal output from the adder 6, and is matched to the delay time in the correlation detection section. Reference numeral 16 denotes a switch circuit which is controlled by the output of the rectifier circuit 14 and selects the output of the bandpass filter 10 or the delay circuit 15 and supplies it to the output terminal 11.

In the comb filter configured as described above, when there is a line correlation, the chromaticity signal includes a signal of about 2 MHz, so that an output is generated to the low-pass filter 12. The output of this low-pass filter 12 is amplified to a predetermined value in an amplifier 13 and then rectified in a rectifier circuit 14 to output a signal indicating that a line-correlated portion has been detected. The output signal of the rectifier circuit 14 is supplied to the switch circuit 16 as a switching control signal. When supplied with the output of the rectifier circuit 14, the switch circuit 16 selects the chromaticity signal outputted via the delay circuit 15 and sends it to the output terminal 11. In other words, when there is a line correlation, the chromaticity signal is extracted directly without going through a bandpass filter, which widens the bandwidth of the chromaticity signal and improves color resolution. do. In this case, the delay circuit 15 is provided to compensate for the delay in the operation of the switch circuit 16 in the line correlation detection system.

Next, in a portion where there is no line correlation, no output is sent from the low-pass filter 12, so the control signal supplied from the rectifier circuit 14 to the switch circuit 16 is cut off, and accordingly, the switch circuit 16 is The output terminal 11 selects the chromaticity signal supplied through the bandpass filter 10.
Send to. That is, in areas where there is no line correlation, a luminance signal appears in the chromaticity signal output, so if used as is, cross color interference will occur. Therefore, in this state where there is no line correlation, cross color interference is prevented by selecting and using the chromaticity signal with the luminance signal attenuated via the bandpass filter 10.

In a circuit configured in this way, the luminance signal is attenuated by extracting the chromaticity signal through the bandpass filter only in a state where there is no line correlation where cross color interference occurs. In areas where there is a line correlation where interference is not generated, the chromaticity signal is directly extracted, resulting in improved color resolution.

As explained above, the comb filter according to the present invention detects the state of line correlation and switches the switch circuit, thereby directly extracting the chromaticity signal in the state of line correlation. When the width is widened and there is no line correlation, the chromaticity signal is extracted through a bandpass filter that attenuates the luminance signal component, which reliably prevents cross color interference and improves color resolution. It has an excellent effect of improving

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a conventional comb filter, and FIG. 2 is a block diagram showing an embodiment of a comb filter according to the present invention. 2... Positive phase amplifier, 3... Negative phase amplifier, 4, 15...
Delay circuit, 5, 6, 7... Adder, 8, 12... Low pass filter, 10... Band pass filter,
13... Amplifier, 14... Rectifier circuit, 16... Switch circuit.

Claims (1)

[Claims] 1. In a comb filter that separates a luminance signal and a chromaticity signal included in a video signal, an addition circuit that adds the chromaticity signal to the luminance signal via a low-pass filter to correct vertical resolution; A line correlation detection section detects the presence or absence of line correlation in the signal, and is controlled by the output of the line correlation detection section, and in the section where there is line correlation, the separated chromaticity signal is directly taken out, and the line correlation A comb-shaped filter comprising a switch circuit for extracting the separated chromaticity signal through a filter that attenuates the luminance signal component in a portion without the chrominance signal.