Dreifarben-Fernsehverfahren und Farbfernsehgerät zur Durchführung dieses Verfahrens

1,139,674. Colour television. INTERNATIONAL POLAROID CORP. 8 March, 1966 [8 March, 1965], No. 10163/66; Heading H4F. A subject is analysed to determine the distribution of light in three different visible wavelengths and is reproduced by three visible displays in registration, the first being in white light and corresponding to the light distribution in a first of the wavelengths, the second being in coloured light and corresponding to the light distribution in a second of the wavelengths and the third being in a coloured light including the colour content of the second display and corresponding to the light distribution in the third wavelength. The invention is described in detail only as applied to television in which the displays are produced by a cathoderay tube having a screen formed of superposed red, green and blue phosphors and arranged whereby the electron beam velocity may be controlled so as to cause the penetration and excitation of one, two or three of the layers to produce respectively light of one, two or three component colours. The light comprised of two components includes the colour of the light due to the one component. The light comprised of three components is white light. The phosphor layers may be arranged in any order and Figs. 3-8 illustrate alternative combinations of colour displays which may be produced in response to electron beam excitation. The receiver is constructed to respond to an N.T.S.C. signal in which the analysis of the original subject at the transmitter is in terms of red, green and blue light. In the figures the colours represented by the signals which modulate the beam intensity are indicated at the left-hand side and the colours of the light of the resulting displays at the right-hand side. The beam velocity is controlled by changing the potential applied to a conductive layer 62. The colours may be produced in a sequence at field, line or dot rate. Conventional "colour killer" circuitry may be incorporated in the receiver to cause the cathode-ray tube to operate at maximum beam velocity, and hence produce white light, when a black-and-white signal is received. The Specification refers to the following features without giving details: (a) the use of other than N.T.S.C. primaries for the analysis of the original subject; (b) a cathode-ray tube based on a strip screen with masking and not requiring changes in beam velocity; (c) electroluminescent displays. The invention depends for its operation upon the reproduc