SU813816A1 - Method of transmitting stereocolour television signal - Google Patents

Description

The invention relates to television equipment, namely to the transmission of stereo-color television (STTV) images in a standard television channel, and can be used in systems of applied, special and broadcast television. A known method of transmitting stereo-color television signals is based on transmitting the odd-numbered fields of the wideband luminance signal of the left image of a stereo pair and transmitting the even image of both fields of the narrowband luminance signal of the left image and the subcarrier frequency modulated by the narrow-band luminance signal of the right image 1. However, when transmitting signals over the This method does not provide for the transmission of stereo-color signals in the frequency band of a standard television channel. The purpose of the invention is to provide transmission of stereo-color signals in the frequency band of a standard television channel. To achieve this goal when transmitting stereo color television signals based on the transmission in odd lines of the odd fields of the wideband Luminance signal of the left image of a stereo pair and on the transmission in the even lines of both fields of the narrowband luminance signal of the left image and the subcarrier frequency modulated by the narrowband luminous signal of the right image, in odd lines fields and subcarriers are additionally modulated with two-band color difference signals transmitted alternately through two lines ravogo image in the even fields of the in odd rows transmitted narrowband luminance signal of the left image stereopair and subcarrier modulated simultaneously luminance signal of the right and one of the color difference signals of the left image stereopair and odd rows subcarrier additionally modulated with a second narrowband color difference signal of the left fig tim stereopair . FIG. Figure 1 shows the structural electrical circuit of the device for implementing the proposed method; in fig. 2 - spectra of transmitted signals. The stereo color television signal transmission device includes left and right color transmitting television cameras 1 and 2; matrixes 3 and 4 of signal conversion, the first and second switches 5 and 6, controlled by quarter-line signals in odd fields and semi-line in even fields; the third, fourth and fifth switches 7-9, controlled by frame frequency signals; the sixth and seventh switches 10 and 11, controlled by semi-line frequency signals; generator-modulator 12 subcarrier frequency; 13 low pass filter; the amplitude modulator 14 of the television signal carrier and the transmitter 15.

The device works as follows.

In odd lines of odd fields, the luminance signal of the left image UL in the wide frequency band from the signal conversion matrix 3 is fed through the fourth and fifth switches 8 and 9 to the amplitude modulator 14 of the television signal carrier and further to the transmitter 15 (Fig. 2 a, b; I field). In even-numbered lines of odd fields, the signal Od arrives at the amplitude modulator 14 through the quarter and fifth switches 8 and 9 and the low-pass filter 13, which is limited in band. At the same time, to the other input of the amplitude modulator 14 from the oscillator-modulator 12 the subcarrier frequency enters through the gap and the seventh switch 10 and the subcarrier frequency. The latter in modulator-generator 12 is modulated simultaneously by two signals (for example, as in NTSC or PAL systems) —the narrow-band luminance signal Yn of the right image, which comes from the signal conversion matrix 4, and one of the color difference signals of the right image, which comes from matrix 4 through the second and third switches 6 and 7 (Fig. 2 b, d; I field). In all rows of even fields, the luminance signal from matrix 3 is fed to the amplitude modulator 14 through the fourth switch 8 and the low pass filter 13. At the same time, the sub-carrier frequency from the generator module 12 is fed through the pinch switch 10 to the other input of the amplitude modulator 14. In the latter, the subcarrier is modulated simultaneously by two signals — a narrowband luminous Yn of the right image, which comes from matrix 4, and transmitted alternately through the row from matrix 3 via the third switch 7 by the color difference signals of the left image (Fig. 2; II field).

Thus, in this method, the left image in odd fields is transmitted in a wide frequency band (the missing HF components in the n-1 and n + 1 lines can be taken from the previous p-2 and n-th lines by selecting a band-pass filter and a delay per line), and in even-ned fields, x for shortened lines (for example, up to 3 MHz). At the same time, the quality of the reproduced image is closer to the best. In even fields, the left image is transmitted in color.

with the same quality as in the SECAM system. The quality of the color right image (vertical resolution) transmitted in odd fields is slightly worse, since color difference signals are transmitted less frequently,

than even-numbered x. However, taking into account the properties of vision. The quality of the reproduced image is closer to the best.

The described signal multiplexing provides this method in comparison with the well-known following main technical

benefits: eliminates cross-sectional distortion between the left and right stereo image signals; there is no need to maintain a certain ratio between the amplitudes of the compressed signal 9, depending on the character of the transmitted image; the process of separating the signals of the left and right images of a stereo pair is greatly simplified; the signal / noise ratio is increased when transmitting the left image of the stereo pair.

Claims (1)

Invention Formula A method of transmitting stereo-color television signals based on transmission in odd lines of odd fields of a wideband luminance signal of the left image of a stereo pair and in transmission in even lines of both fields of a narrowband luminance signal of the left image and subcarrier frequency modulated by a narrowband luminance signal of the right image, characterized in that in order to ensure the transmission of stereo-color signals in the frequency band of the standard television channel in odd fields subcarrier further modulate transmitted serially through two lines narrowband color difference signals of the right image, in the even field h odd rows transmitted narrowband luminance signal of the left image stereopair and subcarrier modulated simultaneously luminance signal of the right and one of the color difference signals of the left image stereopair and odd rows the subcarrier is additionally modulated with a second narrowband color difference signal of the left image of the stereo pair. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 605342, cl. H 04 N 7/18, 1974. 1 field. B h 6 ,/,one { ABOUT  fn 6 Phi1.1