DE693994C - Receiving device for color television - Google Patents

Description

The invention relates to a receiving device for color television.

Various methods are already known in which the fluorescent screen of the receiver tube has strips of differently colored luminous material of line width in cyclic succession. The production of such screens with color line is practical with today's demands on ^one line number hardly feasible. In addition, the highest demands must be placed not only on the mutual position of the lines, but also on the position of the entire image on the screen of the receiver tube, because a shift of the entire image compared to the color lines of the screen by a fraction of a line width leads to the strongest disturbances in the colored picture.

Other known methods require several for the reproduction of the colored image Transmission channels between sender and receiver and thus practically separate the realization of color television.

The present invention now provides a simple device for color television at which all the difficulties mentioned have been eliminated. With an arrangement according to According to the invention, successive lines on the transmitter side correspond to two complementary colors, and at the receiver end two cathode ray tubes are used, each one of the Both 'colors are assigned in such a way that each tube only has the line of the color assigned to it reproduces and the two corresponding images are optically pushed into one another, so that a single picture emerges for the observer. Correspondingly, you can, of course also use more than two colors and thus more than two receiving tubes.

If two tubes are used on the receiving side, the image is scanned on the transmitter side so that one line sequence, for example the one containing odd lines, through a filter of one color, e.g. B. ■ red, the other line sequence through a filter the other color (green) is scanned. One receiver tube only speaks to di, e one line sequence, which corresponds to the green picture lines, the other tube only to the second Line sequence which corresponds to the red picture lines. Be through a suitable look the 'two pictures placed exactly on top of each other and viewed at the same time, namely that Image of one tube through a red one, the image of the other tube through a green one Filter.

Fig. Ι shows schematically an apparatus according to the invention;

Fig. 2 shows the course of the pulse deflecting the beam on the receiving tube; Fig. 3 shows how the superimposed images appear on the two tubes. % _K. '■ ι In Fig. Are ι and 2, the enlarged end portions of two cathode ray tubes, the image is formed on the end faces 3 and 4. The strength of the cathode ray is changed in a known manner by the received pulses, and each tube is provided with the known device by which the ray scans the screen in lines which correspond to those at the transmission point. However, these scan lines differ from those of the transmitter in that the number of lines on each tube is only half the number of lines on the transmitter and that the successive scan lines of the transmitter are alternately reproduced by the two tubes. The distance between the lines of each tube is therefore twice as great as that of the transmitter; Adjacent lines of a tube thus correspond to alternating lines of the transmitter. This ratio of the scan lines of the transmitter and the two tubes is achieved by using a single beam deflecting pulse for the two tubes which has a frequency which is only half the number of lines scanned per second in the transmitter . Such a pulse is represented by "curve 5" in Fig. 2. It has the usual sawtooth shape, but in this case the amplitude is twice as large as usual in order for the beam of both tubes to sweep over the end wall of the tube. The bias of the beam deflector of the respective tubes is accordingly adjusted so that the beam of one tube sweeps over its one end wall during one half of each pulse and the beam of the other tube sweeps over its end wall during the other half of the pulse the end wall of this tube moves during the first half of each pulse, that is, from the value α to the mean value b ; if the further deflection of this beam takes place during the second half of this pulse, changes in the strength of the beam during this half of the pulse will have has no influence on the image produced by the tube 1. Because of the above-mentioned bias, the S trahl von 2 do not begin to sweep the end wall of this tube until point b of the deflection pulse is reached, and the whole scan will be completed when point c is reached, whereupon the game will turn.

repeated. Since the frequency of the pulse 5 is half as great as that of the number of lines scanned at the transmitter, two successive lines are scanned at the transmitter while the deflection wave from α to c starts. increases. During the scanning of the one line at the transmitter the beam of the tube 1 will completely sweep the end wall of the tube, and during the scanning of the next line at the transmitter the beam of the tube 2 again completely sweeps the end wall of this tube. Thus, the image formed by each tube only responds to alternate scan lines from the transmitter. Since, as already mentioned, the adjacent lines are scanned by red and green filters at the transmitter, the image generated by the tube 1 is limited to the red parts of the original and the image generated by the tube 2 is limited to the green parts of the original. If the tube 1 is now viewed through a red filter and the tube 2 through a green filter, the end result is a reproduction of the image in the correct colors.

The drawing shows as a sent image a green square with a red center ", namely, the strong lines 7 reproduce the image that passes through the tube 1 of the red part of the image. The thin lines 8 show the image that passes through the tube 2 from green part of the image. The two fluorescent screens of the tube will be viewed through a partially silvered mirror 9, with a red in front of the tube 1 Filter 10 and in front of the tube 2 a green filter 11 is arranged. The two pictures are then brought into the correct position to each other as shown in Fig. 3, which is the green square 12 with the red center circle 13 can be recognized. Which reproduce the two colors thin »and thick lines can also be called the scan lines of the cathode rays of the two Tubes are considered and are consequently drawn nested, however the scan lines are of course not shown at their correct spacing from one another.

Instead of the red and green filters in front of tubes 1 and 2, you can also use two Use tubes with different fluorescent material that directly match the desired Generate colors red and green. In the same way you can if at the broadcasting station Cathode ray tubes are used, either ^ use colored filters or tubes, in which the photoelectric material is selectively responsive to red and green.

Claims (5)

Patent claims: i. Receiving device for color television, characterized in that consecutive lines on the transmitter side 698994 two complementary colors and two cathode ray tubes on the receiver side are available, which are each assigned to one of the two colors so that each tube only the lines of its assigned Color reproduces and that the two resulting images are optically pushed into one another are such that a single image is created for the viewer. 2. A receiving device according to claim i, characterized in that the amplitude of the deflection voltage is for the tubes twice as large as would be necessary · for writing an entire line on the screen, and in that an _on: the tubes is supplied as the voltage of the beam deflection device, that the beam of one tube writes a full line during the first part of the line period and the beam of the other tube during the second part of the line period. 3. Receiving device according to claim ι and 2, characterized in that that in front of each of the two tubes a filter corresponding to the assigned color is arranged. 4. Receiving device according to claim 3, characterized in that the Both images are viewed through a partially silver-plated mirror. . 5. Arrangement according to claim 1 to 4, characterized in that during the scanning For an image with more than two colors, several tubes, which are assigned to the individual colors, are provided are. 1 sheet of drawings