JPH01302993A - Luminance/chromaticity signals separation circuit - Google Patents

Abstract

PURPOSE:To surely prevent the occurrence of cross color disturbance and cross luminance disturbance through a simple circuit by separating a luminance signal and a chromaticity signal by operational processing by using the correlation between fields effectively, and securing the separation of the related luminance signal and the related chromaticity signal. CONSTITUTION:When a composite video signal A is supplied to an input terminal 1, a part of it is delayed by a field delay element 5 extending over one field period, and is supplied to an arithmetic operation device 6' as a delayed composite signal B. In this device 6', the delayed composite video signal B delayed extending over one field period is subtracted from the signal A at the point of present time that it is supplied to the terminal 1. By multiplying the output of this subtracter 6a by 1/2 by a multiplier 6b, the chromaticity signal not containing a luminance signal component is separated and outputted. The output chromaticity signal of this multiplier 6b is band-limited by a bell filter 3, and is outputted from the terminal 4 as the chromaticity signal C. On the other hand, when the output of an adder 6d is multiplied by 1/2 by the multiplier 6e, the luminance signal is obtained, and this signal Y is outputted from the terminal 2.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a luminance/chromaticity signal separation circuit (y-c separation circuit) that separates and extracts a luminance signal Y and a chromaticity signal C from a composite video signal. This invention relates to a luminance/chromaticity signal separation circuit that will be used in color television receivers based on the upcoming SECAM system. [Prior art]

In color television broadcasting using the SECAM system,
Line-sequential color signals are frequency modulated and sent. For this reason, color television receivers based on the SECAM system use a bandpass filter called a Bell filter to separate the luminance signal (Y signal) from the composite video signal. There is. Figure 5 shows the brightness and brightness using the conventional bell filter mentioned above.
1 is a block diagram showing a chromaticity signal separation circuit, in which 1 is an input terminal to which a composite video signal A is supplied, 2 is an output terminal connected to input terminal 1 to take out a luminance signal Y, and 3 is connected to input terminal 1. This is a bell filter as a bandpass filter. As shown in FIG. 5, this bell filter 3 has f. =4.328 It has a passband characteristic with Mn2 as the center frequency. 4 is an output terminal connected to the bell filter 3 to take out the chromaticity signal C. In the luminance/chromaticity signal separation circuit configured as described above, when the composite video signal A is supplied to the input terminal 1, a part of it is supplied as the luminance signal Y to the output terminal 2. Also,
The Bell filter 3 separates a signal having a center frequency of fG=4.328 Mn2 from the composite video signal A supplied to the input terminal 1, and supplies this separated signal as a chromaticity signal C to the output terminal 4.

[Problem to be solved by the invention]

As described above, the conventional luminance/chromaticity signal separation circuit uses a bandpass filter to separate the luminance signal and chromaticity signal from the composite video signal. It is not possible to perform sufficient separation of the images, resulting in cross-color interference and cross-luminance interference (dot interference).
occurs, resulting in a problem of deteriorating the reproduced image quality. Therefore, an object of the present invention is to provide a luminance/chromaticity signal separation circuit that has a simple configuration and can perform sufficient luminance/chromaticity signal separation so that cross color interference and cross luminance interference do not occur. It is.

[Means to solve the problem]

The luminance/chromaticity signal separation circuit according to the present invention separates composite video signals into one in color television broadcasting based on the SECAM method.
A delay means for delaying over a field period is provided, and the composite video signal outputted from this delay means one field period before (strictly speaking, the composite video signal of IV-0, 51 () and the composite video signal at the present time) is input. The luminance signal and the chromaticity signal are separated by calculation in a calculation means that uses the correlation between fields in the composite video signal.

[Effect]

In the luminance/chromaticity signal separation circuit according to the present invention, the luminance/chromaticity signals are separated by calculation using the inter-field phase relationship of the chroma signal in the SECAM color television signal. This makes it possible to purely separate both signals, which is significantly different from the case of frequency separation.

【Example】

FIG. 1 is a block diagram showing an embodiment of a luminance/chromaticity signal separation circuit according to the present invention, and the same parts as in FIG. 4 are indicated using the same symbols. In the same figure, 5 is a field delay element as a delay means, and the composite video signal A supplied to the input terminal 1 is transmitted for a period of 312H (IV-0, 5H).
) After being delayed for two minutes, it is output as a delayed composite video signal B. Reference numeral 6 denotes an arithmetic means, which calculates the luminance signal Y and the chromaticity signal C by inputting and calculating the composite video signal A supplied to the input terminal 1 and the delayed composite video signal B output from the field delay element 5. Separate and output. In this case, the calculation means 6 is the composite video signal A.
A subtracter 6a that subtracts the delayed composite video signal B from the subtracter 6a, a multiplier 6b that multiplies the output of the subtracter 6a by 2, and a subtracter 6C that subtracts the output of the multiplier 6b from the composite video signal A. ing. In the luminance/chromaticity signal separation circuit configured in this way,
When a composite video signal A separated from a color television signal sent by the SECAM method is supplied to the input terminal 1, the composite video signal A is sent to the field delay element 5 for one field' period, more precisely, 312H period (IV- 0
, 511) and is supplied to the calculation means 6 as a delayed composite video signal B. In the calculation means 6, a subtracter 6a subtracts the delayed composite video signal B, which is a signal from one field period ago, from the current composite video signal A supplied from the input terminal 1. Here, the subcarrier in the composite video signal A supplied to the input terminal 1 has color difference components and phase components determined as shown in FIG. Here, the composite video signal A with field number 2 and scanning line number n+5 in FIG.
is supplied, the color difference component is BY and the phase is π. At this point, the delayed composite signal B output from the field delay element 5 is a signal 312H period (IV-0, 5H) before the composite video signal A, that is, the color difference component of one field before is B-Y. becomes a signal with a phase of 0. Here, assuming that the correlation between the signal one field before and the current signal is extremely strong, when the delayed composite video signal B one field before is subtracted from the composite video signal A at the present time in the subtracter 6a, the output is The luminance signal is zero and the color difference signal is twice as large. Therefore, by doubling the output signal of the subtracter 6a in the multiplier 6b, the desired color difference signal C is obtained. The color difference signal C separated in this manner is band-limited via a bell filter 3 if necessary, and is supplied to the output terminal 4 as a signal that does not include a luminance signal. On the other hand, the subtracter 6a in the calculation means 6 executes a process of subtracting the color difference signal C as the output of the multiplier 6a from the composite video signal A supplied to the input terminal 1. When such processing is performed, the signal remaining after subtracting the color difference signal from the composite video signal A is supplied to the output terminal 2 as the luminance signal Y. FIG. 3 is a block diagram showing another embodiment of the luminance/chromaticity signal separation circuit according to the present invention, and the same parts as in FIG. 1 are indicated using the same symbols. In the figure, 6' is an arithmetic means, and the difference from the arithmetic means 6 shown in the first part is that the subtracter 6c is removed and the composite video signal A and the output signal B of the field delay element 5 are added together. This is achieved by providing an adder 6d and a multiplier 6e that multiplies the output of the adder 6d by 2 and supplies the output signal as a luminance signal Y to the output terminal 2. In the luminance/chromaticity signal separation circuit configured in this way, when the composite video signal A is supplied to the input terminal 1, a part of it is transmitted to the field delay element 5 as a delay means.
As in the case described above, the delayed composite video signal B is generated by the calculation means 6'' by being delayed for one field period.
supplied to In the calculation means 6'', a delayed composite video signal B delayed for one field period is subtracted from the current composite video signal A supplied to the input terminal 1 in a subtracter 6a.The output of the subtracter 6a The signal is multiplied by 2 in the multiplier 6b, so that the chromaticity signal that does not include the luminance signal component is separated and output, as in the case described in FIG. The output chromaticity signal is band-limited by the bell filter 3 as necessary, and then output as the chromaticity signal C to the output terminal 4.
supplied to On the other hand, when the adder 6d constituting the calculation means 6' adds the current composite video signal A and the delayed composite video signal B delayed over one field period, the chromaticity signal component is zero and the luminance signal component is zero. A signal that is twice as large will be output. Therefore, when the output signal of the adder 6d is multiplied by 2 in the multiplier 6e, a luminance signal is obtained, and this signal is supplied to the output terminal 2 as the luminance signal Y. In each of the above embodiments, a case has been described in which a luminance signal and a chromaticity signal are separated from a composite video signal by analog signal processing, but the present invention is not limited to this, and May be separated. Alternatively, the composite video signal may be divided into a still image portion and a moving image portion, and the luminance/chromaticity signal separation circuit according to the present invention may be applied only to the still image portion. Furthermore, the delay means is not limited to a field delay element, and a memory element may also be used. 112=

【Effect of the invention】

As explained above, the luminance/chromaticity signal separation circuit according to the present invention does not separate the luminance signal and chromaticity signal using a band-pass filter as in the past, but effectively utilizes the correlation between fields. Since the luminance signal and the chromaticity signal are separated by arithmetic processing, the luminance signal and chromaticity signal can be separated reliably. As a result, although the circuit configuration is simple, it is possible to reliably prevent the occurrence of cross color interference and cross luminance interference.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the luminance/chromaticity signal separation circuit according to the present invention, and FIG. 2 is a diagram showing the phase relationship of subcarriers in a color television signal based on the SECAM system.
Fig. 3 is a block diagram showing another embodiment of the luminance/chromaticity signal separation circuit according to the present invention, Fig. 4 is a block diagram showing a conventional luminance/chromaticity signal separation circuit, and Fig. 5 is the same as Fig. 4. FIG. 3 is a characteristic diagram of the bell filter shown in FIG. 1 is an input terminal, 2 and 4 are output terminals, 3 is a hell filter, 5 is a field delay element (delay means), 6.6 is an arithmetic means, 6a and 6c are subtracters, and 6b. 6e is a multiplier, and 6d is an adder. Patent applicant Takashi Murakami, Representative Director of NEC Home Electronics Co., Ltd. -1, Indication of the case 1988 Patent Application No. 1333842, Name of the invention Luminance/chromaticity signal separation circuit 3, Person making the amendment 6, Amendment Content

Claims (7)

[Claims] (1) A delay means for delaying a composite video signal extracted from a television signal based on the SECAM system over one field period, and inputting the composite video signal and the delayed composite video signal output from the delay means; 1. A luminance/chromaticity signal separation circuit comprising: arithmetic means for separating and outputting a luminance signal and a chromaticity signal by performing arithmetic processing using the correlation between fields in the signal. (2) a delay means for delaying a composite video signal extracted from a television signal based on the SECAM system over one field period; and inputting the composite video signal and the delayed composite video signal output from the delay means; a calculation means that separates and outputs a luminance signal and a chromaticity signal by performing calculation processing using the correlation between fields in the signal, and the calculation means converts the delayed composite video signal from the composite video signal. Consisting of a subtracter that performs subtraction, a multiplier that outputs a chromaticity signal by multiplying the output signal of the subtracter by 1/2, and a subtracter that subtracts the output signal of the multiplier from the composite video signal. A luminance/chromaticity signal separation circuit characterized by: (3) a delay means for delaying a composite video signal extracted from a television signal based on the SECAM system over one field period; and inputting the composite video signal and the delayed composite video signal output from the delay means, a calculation means that separates and outputs a luminance signal and a chromaticity signal by performing calculation processing using the correlation between fields in the signal, and the calculation means converts the delayed composite video signal from the composite video signal. a subtracter for subtracting; a multiplier for outputting a chromaticity signal by multiplying the output signal of the subtracter by 1/2; an adder for adding the delayed composite video signal to the composite video signal; and a multiplier that outputs a luminance signal by multiplying the output signal of the multiplier by 1/2. (4) a delay means for delaying a composite video signal extracted from a television signal based on the SECAM system over one field period; and inputting the composite video signal and the delayed composite video signal outputted from the delay means, the composite video signal is A luminance/chromaticity signal separation circuit comprising a digital processing calculation means that separates and outputs a luminance signal and a chromaticity signal by performing calculation processing using the correlation between fields in the signal. . (5) a delay means for dividing a composite video signal extracted from a television signal based on the SECAM system into a still image portion and a moving image portion, and delaying the composite video signal in the still image portion over one field period; and the still image portion. The composite video signal in and the delayed composite video signal output from the delay means are input, and the luminance signal and chromaticity signal are separated and output by performing arithmetic processing using the correlation between fields in the composite video signal. 1. A luminance/chromaticity signal separation circuit comprising: arithmetic means having a digital configuration. (6) a delay means for delaying a composite video signal extracted from a television signal based on the SECAM system over one field period; and inputting the composite video signal and the delayed composite video signal output from the delay means, It is composed of a calculation means that separates and outputs a luminance signal and a chromaticity signal by performing calculation processing using the correlation between fields in the signal, and the delay means has a period of 312H when the horizontal deflection period is H. What is claimed is: 1. A luminance/chromaticity signal separation circuit comprising a field delay element that delays the luminance and chromaticity signals. (7) a delay means for delaying a composite video signal extracted from a television signal based on the SECAM system over one field period; and inputting the composite video signal and the delayed composite video signal output from the delay means, A calculation means that separates and outputs a luminance signal and a chromaticity signal by performing calculation processing using the correlation between fields in the signal, and a band that limits the band of the chromaticity signal output from this calculation means and outputs it. A luminance/chromaticity signal separation circuit comprising a pass filter.