DE651904C - Method for extending the scanning time when transmitting cinema images - Google Patents

Description

The present invention is to improve a cathode ray tube telemetry transmitter. With the previous cinema channels of this type, a considerable fraction of the image period (around 25 ° / ₀ ) was lost due to the time for the jerky movement of the film (e.g. by means of a Maltese cross drive), during which there was no projection on a light-sensitive mosaic screen and no scanning of the screen could be done. Exposure and scanning of the screen took place simultaneously each time during the film standstill, i.e. during the remaining 7S ⁰ J _{0 of} the picture period.

The present invention is based on the idea that, with a given frequency bandwidth, more image details can be transmitted, the more time is available for scanning the individual image. The invention enables the scanning duration of the individual image to be extended to at least 90 ° / _{0 of} the image period, in that only a fraction of the normal downtime caused by the film drive is used to expose the mosaic screen.

The previously common cathode ray apparatus with continuously moving film has still another disadvantage, which is due to the fact that the individual surface elements of the screen cannot be illuminated at the same time as they are illuminated by the ■ cathode ray are scanned. This results in a loss of image quality in the receiver, resulting from an imprecise relationship between the lights and shadows of the picture. Also take in this way of working the individual screen elements take on a different charge after being scanned by the beam are. The individual loads are therefore not completely in the preparation. This is neutralized for the next picture, depending on how the picture is to be presented Scene changes, is different from the previous one. This has the consequence that the next image is distorted at the receiving point.

The present invention is intended to eliminate these disadvantages.

In the method according to the invention, the film is moved intermittently by the transmitter apparatus. The image to be sent remotely is projected onto the light-sensitive mosaic plate of the Braun tube during the film standstill. This should, however, only make up about 10 ° / _{ft of} the full "time of a complete working cycle. The cathode ray is blocked during the projection of the film image. Electrostatic charges are formed on the light-sensitive mosaic plate according to the optical brightness values of the image. During the remaining 90 ⁰ / _{0 of} a working period

blocks a shutter device from the light coming from the film frame, so that the Braun's tube photocathode remains dark. During this time it becomes electrostatic Image of the photocathode scanned with the cathode ray, and that about still existing charges are neutralized. Fig. Ι represents a circuit diagram, Fig. 2 a View of the closure, seen from the left side -der Fig. Ι. Fig. 3 illustrates a scheme of the operation of the subject invention.

In Fig. Ι 10 is a cathode ray tube with photoelectric mosaic screen 12, electron source 14 and grounded anode 17 (silver coating). 26 is the control grid.

To explain the idea of the invention, for example, a number of picture changes of 24 Hz and a number of lines of 180 per picture should be assumed. The coils 18 (horizontal deflection) and 22 (vertical deflection), which are fed by the generators 20 and 24 with a sawtooth-shaped current of the frequency 4320 and 24 Hz, serve as deflection organs. The speed of movement of the intermittently driven (normal painting drive 30) film 28 is 24 Hz. On this motor shaft sits a breaker disk 38 with an opening 40 which extends over Y _{10 of} the circumference (Fig. 2) and through which the individual images of the film be thrown onto the screen.

The Maltheser drive 30 brings about a quarter of each revolution of the camshaft 32 a new image in position that will be used during the remainder of the revolution this wave stands still. As can be seen from Fig. 3, each new

₄ c brought image during each rotation of the camshaft 90 ⁰ in the position to rest there for the remaining 270 ^0th

The operation of the drive shafts 32

and 34 in connection with the opening 40 of the disc 38 is made so that in the relatively short times in which the film frames as a whole on the photosensitive Mosaic plate 12 of the Braun tube are thrown, the film image itself completely

come to a standstill, see also Fig! 3.

For purposes of synchronization, the disk 38 contains 180 openings in a known manner 44. During each revolution of the disc, light goes from source 46 to the Photocell 48, which is connected to the amplifier 42, from which the pulses are passed on will. Some of the openings 44 are of greater length (openings 50) than those listed above and are used for generation the frame rate. This always happens in the time in which the film image is projected on the mosaic screen. By shifting the control grid potential from the electrode 26 into the negative it is achieved that the one scanning the mosaic screen Cathode ray only in the times of the proportionally increasing characteristic of the 'Tilting voltage is effective while it is terminated when jumping from one image line to the other or when passing one Image scanning is locked to the starting point of the new image scanning.

The method of operation of the method according to the invention will now be illustrated with reference to FIG. 3 are explained in more detail:

From the point in the clockwise direction to point B , the opening 40 of the disk 38 is in the direct path of the light source-film-mosaic screen. As a result, the image of the still film to be transmitted is projected onto the screen 12, as already stated. During this period, a drive pulse for the generator 24 is triggered via the opening 50 of the disk 38, which drives the cathode ray back to the starting point of the image scanning and blocks it by shifting the grid potential (electrode 26). At point B , the interrupter disk 38 blocks all light coming from the film image. At this operating point, the negative bias of the grid 26 is canceled again. The cathode ray is free to scan the electrostatic image formed on the mosaic screen. For this scanning, according to Fig. 3, there is a time of the movement of the disk 38 from the point egg? clockwise up to the point. If the disk 38 has reached point C during its movement, the Maltheser drive 30 brings the next film image into the image field, which is reached at point D. After the picture on the mosaic screen has been scanned (the disk 38 has reached the point during this time), the cathode ray is blocked, whereupon the game can begin again for the next film picture. The transmission of the pulses triggered by the mosaic screen and tapped by means of the cathode ray takes place via the line 54 and the amplifier 56. The amplified synchronization pulses from the amplifier 42 are also fed to this amplifier, in order then to be forwarded to the transmitter 58 together with the image signals.

When throwing the images on the screen 12, the photoelectric effect causes a disturbance in the form of a strong pulse whose amplitude varies with the average borrowed light intensity on the screen during the period of 36 ^0th Since this im-

pulse also reaches the transmitter via line 54 and amplifier 56, it can cause interference in the receiver. In order to eliminate it during each revolution of the disk 38, a photocell 60 is arranged which intercepts the interfering light coming from the screen 12 and feeds it through a line 62 to the amplifier 56. The polarity of the pulse triggered by the cell 60 is opposite to that of the interference pulse. These two impulses therefore cancel each other out. The compensation pulses can also be generated in other ways, as indicated by the dotted lines. In this case, an opening 64 is provided in the disk 38, which allows light from the source 68 to pass through to a photocell 66. The shape and position of this opening 64 is such that the compensation pulse has the same shape and duration as the interference pulse and occurs simultaneously with it. This compensation pulse is amplified in 70 and fed to amplifier 56 via line 72. This also leads to a cancellation of the effects.

Claims (2)

Patent claims: ι. A method of extending the sampling period in the transmission of picture frames, which are thrown into the entirety of their brightness values simultaneously on a scanned cathode ray photosensitive mosaic screen, characterized-in that the film image only during a fraction of its caused by the intermittent movement sleep time (about ¹ Z _{10 of} the duration of an image period) is projected onto the mosaic screen, during which time the scanning cathode ray is blocked by ^{shifting the grid potential, and that in the remaining time of an image period (about 9/10} ) the unexposed mosaic area is scanned and the film is switched. 2. Device according to the method according to claim i, characterized in that that the interference pulse occurring at the moment of exposure of the screen is equal by a compensation pulse Duration and amplitude, but with the opposite sign, is compensated. 1 sheet of drawings Berlin. Printed in the Hetchsdruckehei