SU1626458A1 - Luminance/chrominance signal separator - Google Patents

Abstract

The invention relates to a color television technique. The purpose of isotope is to improve the quality of separation of luminance and chrominance signals by reducing the effect of crosstalk. The device contains a low-pass filter (LPF) 1 and a subtraction unit 14, which carry out the separation of the frequency spectrum of the full television (TV) signal at the LF and HF part. Further processing proceeds in parallel for the LF and HF parts. The processing of the high-frequency part is performed by a comb filter formed by blocks 2 and 3 delays, blocks 5 and 6, summation by blocks 8 and 9, division into two, and block 13 subtraction. The components of the low-frequency part of the spectrum from the output of the low-pass filter 1 arrive at the image analysis unit 12 vertically, where the current signal and the delayed signal containing the low-frequency part of the spectrum are processed, and an abrupt change of the image along the vertical is recorded, at which crosstalk occurs between signals of luminance and chromaticity. Accordingly, control signals are generated at the output of block 12, which control the operation of switching blocks 10 and 11. Thus, at the output of block 7 summation, a luminance signal is formed with full clarity. From the output of block 11 of the switching signal of the RF part of the spectrum of the signal. 1 hp f-ly, 1 ill. yo

Description

The invention relates to color television technology and can be used to build decoding devices in hardware-studio complexes of the SECAM system.

The purpose of the invention is to improve the quality of separation of luminance and color signals, by reducing the influence of crosstalk.

The drawing shows a structural electrical diagram of the device.

The device contains a low-pass filter (LPF) 1, from the first to the third delay blocks 2-4, from the first to third summation blocks 5-7, the first 8 and second 9 blocks of division into two, the first 10 and second 11 switching blocks, block 12 vertical image analysis, the first 13 and second 14 blocks of subtraction. The vertical image analysis unit comprises a third subtraction unit 15 and a comparator 16.

The device operates as follows.

A full digital television (TV) signal of the SECAM (U) standard is input to the device. In the low-pass filter 1 of their TV signal, the low-frequency part of the 0-3 MHz spectrum (Y _N h) is selected, which contains information about the luminance component of the signal, which is subtracted in block 14 from the full TV signal, and as a result we have the high-frequency part of the spectrum

3-6 MHz (UHF = Y - UNCH). containing both the components of the luminance signal and the components of the color signal. Further, the processing of the incoming TV signal branches out into two parallel circuits: the first for the low-frequency part, the second for the high-frequency part.

A signal containing the high-frequency part of the spectrum is processed using a combined filter (including a notch and band-pass filter) formed by blocks 2 and 3, each of which carries out a delay for the duration of two TV lines, and blocks 5, 6, 8, 9 and

13. In this case, the output signals of blocks 6, 13 and 2 are formed respectively allocated signals of brightness (Ey ₀ ) and color (and _color ) and the delayed signal of the RF part of the spectrum (UHF).

The signal containing the low-frequency part of the spectrum is fed to block 4, where it is delayed by the duration of two TV lines. Block 12, consisting of blocks 15 and 16, processing the current and delayed signals containing the low-frequency part of the spectrum, captures a sharp vertical image change, which causes crosstalk between luminance and color signals, generating a control signal at its output that controls the operation of the blocks 10 and 11. In this case, in the initial state (there is no control signal from the output of block 12, that is, there is no crosstalk), block 10 passes the signal from the output of block 6 to the second input of block 7, and block 11 passes the signal from the output of block 13 and the signals at the output device are determined by the expression

Eu = Unch + Euo:

Tstsv = 11tsvo (1)

When highlighting a sharp change in the image vertically, i.e. when crosstalk occurs, block 12 generates a control signal. With this block. 10 does not pass the signal from the output of block 6 to the second input of block 7, and block 11 passes the signal from the output of block 2 and the signals at the output of the device are determined by the expression / Ey = Unch:

I Uii, b UHF. (2)

Claims (2)

Claim 1. A device for separating luminance and chrominance signals, comprising serially connected first and second delay units, a first summing unit, a first division unit into two and a second summing unit. moreover, the second input of the first summing unit is combined with the input of the first delay unit, and the output of the first division unit by two is connected to the first output of the first subtraction unit, characterized in that, in order to improve the quality of separation of luminance and color signals by reducing the effect of crosstalk, connected low-pass filter, a third delay unit and a third summing unit, the output of which is the output of the brightness signal, a second subtraction unit, the first input of which is combined with the input of the filter of these frequencies is the input of the digital full television signal, the analysis unit is depicted vertically, the first and second switching units and the second division unit into two, the input of which is combined with the first signal input of the second switching unit and connected to the output of the first delay unit, and the output of the second unit dividing by two is connected to the second input of the second summing unit and to the second input of the first subtraction unit, the output of which is connected to the second signal input of the second switching unit, the output of which is the signal output The control inputs of the first and second switching units are combined and connected to the output of the image analysis unit vertically, the first and second inputs of which are connected respectively to the input and output of the third delay unit, while the output of the low-pass filter is connected to the second input of the second subtraction unit, output which is connected to the input of the first delay unit, and the output of the second summing unit is connected to the signal input of the first switching unit, the output of which is connected to the second input of the third summing unit. 10 2. The device according to claim 1, the fact that the vertical image analysis unit contains a third subtraction unit and a comparator connected in series, the second signal of which has a reference signal, the output of the comparator being the output vertical image analysis unit, the first and second inputs of which are the first and second inputs of the third subtraction unit, respectively.