Vorrichtung zum Erzeugen von Farb-Videosignalen

• Main Author: KUROKAWA,HIROMICHI
• Format: Patent
• Language: German
• Published: 05.11.1970
• Subjects: ELECTRIC COMMUNICATION TECHNIQUE; ELECTRICITY; PICTORIAL COMMUNICATION, e.g. TELEVISION

1,246,904. Colour television. SONY CORP. 1 April, 1969, No. 17032/69. Heading H4F. In a colour video signal generating system in which an image of an object 1, Fig. 1, to be televised is projected via a striped colour filter 7 on to the conversion layer of a vidicon pick-up tube 4, an index signal which is used as a reference signal for separating colour component signals from the output of the pick-up tube is produced in the form of two signals of different frequencies in bands outside the chrominance and luminance signal bands so as to avoid possible interaction therebetween. Colour filter F, Fig. 2, comprises repeating red, green and blue stripes 7R, 7G and 7B, and also includes first and second index image forming portions 9a and 9b comprising alternate opaque and transparent elements 9D and 9W which repeat four and five times respectively for three cycles of the three colour filter elements. Index image forming portions 9a and 9b are disposed on both sides of colour filter 7, and in Fig. 2 two such assemblies are shown as a unitary structure. Lens screen 8 comprising cylindricallenses 8a and flat non-lens portions 8b, Fig. 3, is disposed in front of the pick-up tube with lenses 8a parallel to the colour filter stripes so that three repeating cycles are focused by each lens 8a into images on the photoconductive layer of the tube. The overlapping images of the colour filter and index forming portions are scanned by an electron beam to produce an output signal shown in Fig. 4 comprising a chrominance signal 14c (separated by band-pass filter 13c) centred on frequency 3f L (where f L is the signal frequency produced according to the pitch of the lens elements 8a), a luminance signal 14y (separated by low-pass filter 13y) with its frequency lower than 2À5f L and index signals 14ia and 14ib at frequencies 4f L and 5f L respectively separated by band-pass filter 13i. The beat signal 1f L between the two index signals is detected 18, multiplied 19 to produce a frequency 3f L and applied to a phase-shifter circuit 20 to form carriers for detection which are applied to synchronous detectors 17R, 17G and 17B. Wide-band red, green and blue signals are thus derived in matrix 16. The index images may be projected on to the photoconductive layer from outside the optical path between the object and the photoconductive layer e.g. by means a half-silvered mirror disposed between filter 7 and lens screen 8, light from a light source being directed through a diffusion plate to index image forming means before being reflected by the half-silvered mirror on to the photoconductive layer of the pick-up tube, Figs. 5 and 6 (not shown). Lens screen 8 may be replaced by a relay lens.