DE583384C - Device for eliminating the formation of grid stripes on televisions with perforated discs or panels - Google Patents

Description

In the previously known image dismantling and composing devices for television and for remote image transmission purposes, the image to be transmitted becomes generally circular Image elements dismantled and reassembled from them. So is used as an image decomposition and composing device uses a Nipkow disk, this is also used accordingly provided circular holes. However, this results in the shortcoming that that in the recipient the hole in the middle of the image line forming the image line is the largest at the edges however, a smaller amount of light passes through, so that the image is lighter and darker, below it

ig parallel stripes, which show the quality of the Significantly affect transmission.

It has been suggested to remedy this deficiency, square holes in the transmitter and Use receivers where two channels

th run parallel to the image line, so that the entire width of the image line receives the same amount of light receives. However, when these square holes are used, there is a defect that the frequency band of the transmitter is extraordinarily borrowed is widened. The broadening of the frequency band of the modulation oscillations is based on the following fact:

The modulation frequency curve is a curve of the one from the photocell among the impressed ones The voltages supplied by the effects of light. In the receiver image there is a perpendicular to the image lines There is a running light or dark line, for example a pole, a light or dark dressed person or the like, the appearance when using a square hole results that the one in front in the direction of movement is essentially radial, that is, parallel the edge running towards the mentioned image detail causes a sudden change in the exposure caused by the photocell. A sharp current surge occurs and the voltage curve rises steeply. If one draws the voltage curve of a sinusoidal oscillation, which in has the same steepness as the ascending part, this voltage curve becomes a high one Frequency correspond. This replacement frequency belonging to the steep part of the modulation frequency curve can assume a value which is a multiple of the pixel frequency.

The present invention addresses these shortcomings that are inherent in streak generation in the received Form as well as in the broadening of the modulation frequency band exist, thereby avoided that hole shapes are used in the transmitter, which for the purpose of a mitigated The image elements of the image field to be scanned gradually transition the brightness values release and cover again, while in the receiver the individual picture elements immediately released in full line height and covered again in the same way. Be in the transmitter So for example in a Nipkow disc round

583884

Holes or round diaphragms in the beam path of an oscilloscope image decomposition device arranged, in the receiver square or rectangular holes or diaphragms. The width the modulation frequency band is thereby kept within permissible limits and at the same time achieved absolute clarity and freedom from stripes in the received image.

If now detailed images, for example ίο those with relatively fine lines and Transitions that are narrower than the hole used, for example, in the Nipkow disc, are transmitted, the photocell only gives the average brightness value of the Hole released light and dark parts of the picture again, so that the picture elements are in the receiver are displayed with incorrect brightness values. This is particularly annoying Appearance when using square holes in the transmitter.

This disturbing phenomenon while at the same time increasing the richness of detail of the received Image is eliminated by the fact that according to the invention smaller in the transmitter and in the receiver larger holes, diaphragms or the like in the image splitting device be used.

In the drawing there are various embodiments of holes or diaphragms for Illustrates Nipkow disks or other image decomposition or image composition devices, Fig. 1 shows such holes or panels for the dismantling device, Fig. 2 and 3 for the assembly device. As Fig. 1 shows, the holes Fades or the like do not immediately reveal the full width of the image line, but rather cause a gradual one opening and thus a softening of sharp transitions. The simplest form for this is the Circular shape.

In the case of the holes, diaphragms, etc. used on the receiving side, however, a sharp opening is created achieved in that the picture elements have a square or rectangular (wide or narrow) shape, possibly with jagged edges.

If purely square or rectangular holes are arranged in a Nipkow disk, which move in arcs of a circle, so minimal overlap are not completely avoided to _go. Although these do not have a disruptive effect, they are expediently avoided by a circular sector-shaped shape of the holes according to Fig. 3.

If the holes, apertures or the like in the receiver have the width α , which corresponds to the full width of the image line, they are expediently designed in the transmitter with a smaller width b , so that there is a narrow strip between the individual image lines that does not is scanned with remains.

Claims (3)

Patent claims: 1. A device for eliminating the Ra- Q ₅ streaking in televisions with perforated disks or diaphragms, characterized in that the openings of the perforated disks or diaphragms in the transmitter gradually release the picture elements of the image field to be scanned and cover them again, while the individual picture elements are immediately in the receiver full line height released and covered again in the same way. 2. Device according to claim 1, characterized in that when scanning and composition of an image with the same number of lines but of different line height, the holes in the transmission disk opposite the respective corresponding holes in the recom- g ₀ catcher slice a smaller height have, so that it is in do not directly adjoin one another in the radial direction. 3. Device according to claim 1 and 2, characterized in that the holes or diaphragms in the transmitter are circular, in the receiver they are square, rectangular or circular sector-shaped. 1 sheet of drawings