DE1762710C3 - Process for the point-by-point reproduction of halftone images transmitted by bi-telegraphic and television technology and circuitry for carrying out this process - Google Patents

Description

ier sampling swings, whereby a ^ _o f the photosensitive material ent-Jd is moved.

. _Also a method for the transmission of color images by telegraph is already known, with "for the transmission of the color images the original image to be transferred is stretched out on a drum> · - similar to normal image telegraph transmission, a rotating and longitudinal movement is to be carried out. The lichtop system ensures the Image transmitter the color decomposition of the image scanning and the conversion of the • into electrical signals. After amplifying electrical color correction, the video signals corresponding to the basic colors are transmitted via a message transmission train to three auxiliary carriers. In the image receiver, the signals are split up again and the light modulators for basic color are Light modulators are

never performed. With the help of the en who

Here signals of the three primary colors or several in luminous fluxes with different intensities d d bü

converted. The latter are then baked _{and brought together} to a point on the photosensitive surface of the colored photographic material to form a scanning spot. That on the; Iwjmm'el an opaque cassette listed I * _nth photo material, together with the £ drum rotational and longitudinal movement where-ί l _r ch image pickup is possible (contributions of I Scientific and Technical Conference of the Lenin% grader electro-technical news Institute , i gg _ft 2 1964). The disadvantage of such a procedural t _ns is that ■ a very exact proportion of the scanning spot education% Denden colored luminous fluxes of the voltage applied to the light modulators signals must be guaranteed to faithfully color reproduction according to the amplitude F. This means that the light intensity characteristics of the modulators must be very stable and strictly linear. However, none of the types of light modulator has this property. Thus must • the nonlinearity of the Lichtstärkenkennlinicn by '■ electrical Gammaentzerrer be corrected WO: complicated by the device unstable and ^un-:; becomes reliable.

^· A further disadvantage of such a process S _is connected with the requirement that in the color synthesis of the dynamic range of the brightness values generated by the light modulators must correspond to the linear characteristic region of the photosensitive silver halide photosensitive material layers. This requires the characteristics of the gamma equalizer, which have already been brought into agreement, and of the now also aaf the characteristics of the _; hr to be precisely coordinated. But for photographic materials the characteristics are, as we know from the practice of color photography, which is only an intermediate element in electrical image transmission, in which the slightest mutual deviation of characteristic curves necessitates color correction during the print production through careful selection of color filters.

The present invention is based on the object of a method and a circuit arrangement to develop for the reproduction of images, which allow a ίο simplification of the receiving devices and an independence of the image generation from the form and mutual correspondence of Characteristic curves of the light modulators as well as the associated amplifiers and the light-sensitive Ensure films.

In a method of the type mentioned at the outset, this object is achieved according to the invention in that that the electron beam creates a light spot on the fluorescent screen of the cathode ray tube and in a manner known per se for exposing a light-sensitive device that is moved in line and image direction Film as the recording material is projected on this by applying the video signal the area of the light spot on the luminescent screen and thus to the focusing electrodes the corresponding pixel on the film is changed and that the frequency of the periodically generated Electron beams is determined by the pulse frequency of square pulses.

According to the invention, a circuit arrangement for carrying out the method is characterized in that that a pixel frequency generator to the control electrode of the cathode ray tubes and a video signal amplifier is connected to the focusing electrode of the cathode ray tube.

Further refinements of the invention emerge from the subclaims.

The method according to the invention has the advantage that a signal corresponding to the video signal is obtained by focusing the electron beam cross-section in response to the video signal and projected directly onto a photosensitive film. Additional facilities or deflection systems, whereby the charge on a recording material normally mediated by the electron beam is influenced according to the invention not required. Thus, for performing a pixel-by-pixel reproduction No complicated gamma equalizers are necessary for halftone originals, which means that the process and the circuit arrangement for carrying out this method are significantly simplified. Furthermore, the Halftone characteristic of the image synthesis from the characteristic of the photosensitive film as well as from the light in-55 intensity characteristic of the light modulators ^ independent. The halftone characteristic of the

How the colors of the original picture are greater than those of the well-known ßel.

the type of halftone scales specifically to transfer is said to be significantly smaller than that

from a substantial increase in the transfer rate

perform speed. would be described in more detail by colored halftone images. <J <

The following is a preferred embodiment. The three independent color separation ^{signals become s0}

form of the invention on the basis of a drawing closer to the three power amplifiers 1, 2,3 supplied. Let it now- " ⁿ

explained. ⁵ more assumed that the amplifier 1 that the ^Bl

According to the drawing, a circuit arrangement has a corresponding signal, the amplifier ^cri

tion for implementing the anchor 2 according to the invention, the signal st corresponding to the green details

Fahrens power amplifiers 1, 2 and 3, each one and the amplifier 3 the color separation signal from the red details obtain. The circuit shown receives a touching signal. These signals become the ρ

arrangement enables the reproduction of 3 color io respective focusing electrodes 9, 9 ', 9 "of the ^le

extraction signals and thus also a good color value cathode ray tubes 4, 5, 6 supplied. The one in every jy

transmission. Depending on the requirements on the transmission cathode ray tube generated electron beam falls ^d

supply quality, the mentioned number of reinforce- on the luminescent panels 11, 11 ', 11 "and has them up ⁿ

core can be enlarged or selected smaller. light up, whereby the brightness of the light spots is set to ^s

In addition, light modulators, preferably in 15 the screen remains constant, while their area varies the shape of cathode ray tubes 4, 5 and 6 according to the amplitude of the video signal, i.e. depending on

provided, of which each cathode ray tube of the optical density of the original image when applying ^v

a heating cathode 7, 7 ', 7 ", a control electrode 8, the square-wave pulses to the control electrodes 8, *

8 ', 8 ", a focusing electrode 9, 9', 9", a loading 8 '. 8 "is changed. At the same time the down- '

acceleration electrode or acceleration anode 20 guide plates 12, 12 ', 12 "of the by the right ^c

10, 10 ', 10 ", a luminescent screen 11, 11', 11" corner pulse generator 14 synchronized generator ^;

as well as deflection plates 12, 12 ', 12 ". The sawtooth voltage pulses supplied in 15, generated to the cathode ray tubes 4, 5 and 6, which change in their dimensions and for ^:

Electron beams hit the luminescence compensation of the aperture distortions and screens 11, 11 ', 11 "and then form immobile leuk spots that move as point expansion Light spots 13, 13 ', 13 ". The control process from the screens of the cathode ray tubes via consists in changing the light spot diameter the objectives 16, 17, 18 with the desired reducer depending on the voltage size of the voltage on a part of the surface of the color photo color separation signal. materials 20 projected. The latter is an on-cylinder

A rectangular pulse generator 14 to which the 30 and 21 attached multilayer photographic paper Control electrodes 8, 8 ', 8 "of the electron beam tube or similar film.

ren4, 5,6 are connected, locks and unlocks When the light spots are projected from the

periodically the cathode ray tubes and calls on luminescent screens 11, 1Γ, 11 "on the film 20 durchihren If the brief periodic lighting up, the rays of light run forward to form color separators, the formation of the regular dot matrix 35 a color filter system in the manner of dichroitisters enables. see mirrors 22 and 23. The rays of light of the

The repetition frequency of the cathode ray tube 4 generated in the generator 14, which is indicated by the blue Square pulse is chosen so that the Entfer color separation signal is controlled, fall on the tion of the centers of adjacent pixels from a mirror 22, which reflects the blue light rays. other in the horizontal and vertical deflection direction 40 while he passes through all the other beams unimpeded large and the feed path of the photographic material. These blue rays of light penetrate unevenly on which the image is recorded. inhibits the mirror 23, falling on a section of the

A sawtooth generator 15 is attached to the baffle film 20 and form a bunched bluish thereon 12 of the cathode ray tubes 4, 5, 6 connected luminous spot. A red glow also forms here and is synchro- 45 spot from the square pulse generator 14, since the mirror 23 has the property that nized. This enables a periodic shift in coloration from the screen of the cathode ray tube 6 the luminous surface 13 on the screen of the elec- tronics to reflect red rays and the rest electron beam tube in the direction of the line deflection to let rays through. The on screen 11 'of and thus allows a compensation of the aperture cathode ray tube 5 ververzemingen generated light beams and the pixel stretch. Thereby 50 men will be theirs when passing through the mirrors 22 and 23 the leading edge duration of the sawtooth pulses equals red and blue spectrum components and consequently the same Distraction time chosen. It should be pointed out that this cathode ray tube forms on the Abdaß with the aid of further baffles cut the film 20 a green spot. On the fall the position of the light spot on the screen 13 of the mentioned section of the film 20 is thus a The cathode ray tube received a luminous scanning spot consisting of three spots or can be moved. the primary colors or their complementary

The electrodes are assembled in front of the luminous screens 11, 11 ', 11 "and have dimensions, Inner beam tubes 4, 5, 6 are lenses 16, 17, 18 differently ordered by the ratio of the voltages of the color. These lenses project the luminous extract signals onto the modulation electron spot are determined by the surface of the electron beam 60 beam tubes 4, 5, 6, tubes4, 5,6 and form a picture grid point 19 are e.g. the inputs of the amplifiers 1, 2,3

The dimensions cylinders remain on the color-sensitive film 20, which is supplied with signals of the same size 21 is attached; the cylinder also leads to the marking of the spots. Depending on the amount of scanning a fast rotary movement and for tensions (with the same ratio to each other) Scanning a slow, with the movement of the in 65 changes the brightness of the light spot, but the the resulting color of the image sender drum not specified in the drawing remains unchanged. Everyone and the original image affixed to it, the same light spot exposes the colored layers of the fende longitudinal movement. Films 20 to the same extent. After development

^{7 8}

of the film an achromatic image is created. structure that corresponds to the structure of the colored polygraph

If a signal only reaches the cathode ray tube 4, the prints look similar.

so the film 20 will only be exposed to blue light. In some cases, e.g. B. in the case of multicolored poly-

and after development a blue graphic print is obtained, images are aperiodic

Image. The color is desired by the ratio of the area- 5 point structure in order to avoid a disruptive moiré pattern.

to avoid the light spots generated as color separations. For this purpose, the

it's correct. Light spots 13, 13 ', 13 "on the screens 11, 11',

In this way, the film is arbitrarily displaced while simultaneously 11 "perpendicular to the deflection line.

Control of the three cathode ray tubes from AL push. These are in the cathode ray tubes

exposed colors, the additional deflection plates (not shown) due to the three-color area.

mixed with different color relationships built perpendicular to the baffles 12, 12 ',

be det. After completion of the scan and the 12 "will be placed.

subsequent photochemical processing. In controlling the electron beam focus-

there is a color image with a dot structure on the film. tion can affect the brightness of the light spot

Have the screens of the cathode ray tubes 4, 15 screen of the cathode ray tube change, with one

5.6 not the same white phosphor, but an undesirable change in the exposure of the film

a blue occurs for the cathode ray tube 4. In this case, the working conditions

Phosphor, for the tube 5 a green and for the gene in the image recording so chosen that already

Tube 6 uses a red fluorescent substance, then those corresponding to the maximum defocusing are omitted

the need for color separation, and the optimal »0 minimum values of the light spot brightness on the screen

see system is simplified. ensure exposure of the cathode ray tube

It should be pointed out that most of the color synthesis needed to control the horizontal film

Can be done subtractively or additively, depending on the range of the characteristic curve is sufficient. If the loading

whether the three light signals from drieb used for synthesis on the inclined area of the film characteristic

the screens 11, 11 ', 11 "of the electron beam tube» 5, the focusing plates and

Ren 4, 5,6 on the film 20 in one point together- the control electrode to eliminate the interfering

can be guided or lie next to each other. Da- Modulation of the light spot brightness by a

if the maximum point dimensions correspond to the feedback branch are included,

on the film of the reproduced image of the maxima- The circuit arrangement with punctiform image-

len optical density of the original image. The larger the synthesis can also be used in black and white mode

Areas of the image points (i.e. the smaller the spaces between them. For this purpose, two of the

spaces between the points), the larger the three cathode ray tubes and it becomes light-sensitive

This is the optical density of the sensitive black and white material to be reproduced on the cylinder 21

Image. Vice versa? correspond to the minimum opti- tensioned. On the other hand, one of the in the figure

see density values of the original image the points 35 shown cathode ray tubes instead of the

with minimal size (i.e. with larger distances conventional modulation device for generating

from each other). As a result, the images on the film have been used for black and white image synthesis.

reproduced colored halftone images one point end.

1 sheet of drawings

509608/82

Claims (6)

(11 1Γ 11 ") and the photosensitive film claims: (20) an optical device (16 17, 18) and a color filter device (22, 23) are provided 1. Processes for pixel-by-pixel reproduction are
from telegraphic telegraphic and television technology over- 5
carried halftone image originals, in which a scanning spot of at least one cathode ray tube for image point-by-point recording in line and image direction on a recording medium. material projected, the electron beam of the electric io The invention relates to a method for the picture tube for the formation of defined image points point-by-point reproduction of picture telegraphically and periodically and generally depending on a Vi- television-technically transmitted halftone image originals, deo signal is generated and its frequency in such a way at which a scanning spot of At least one Electron is selected so that each oscillation corresponds to a pixel cathode ray tube for pixel-by-pixel recording, characterized in that a light spot material is projected in line and image direction onto a recording by the electron beam, the electron beam from the electron beam on the fluorescent screen (11) of the electron beam tube Formation of defined image points tube (4) generated and generated in a known manner periodically and depending on a video for exposure of a gnal in the line and image direction and its frequency is selected in such a way, moving, light-sensitive Chen film (20) as a record that each oscillation corresponds to a pixel.
Drawing material is projected thereon, the invention also relates to a that by applying the video signal to the photo circuitry for performing the input Kissing electrodes (9) the surface of the luminous process mentioned with at least one electrical spot (13) on the luminescent screen (11) and thus the nenstrahlröhre. corresponding image point (19) on the film (20) »5 A method of the type mentioned is modified and that the frequency of the peri-already in British patent specification 580 413 bcrieodisch electron beams generated by the Imbes. In this known method, the pulse frequency is used of rectangular pulses is determined len-wise application of a recording material. rials an X and Y deflection system provided, wherein 2. Circuit arrangement for carrying out the 30 the amount of charge of the image process generated in each case according to claim 1 with at least points depending on the amplitude of the video signal, a cathode ray tube, characterized by this, to generate a certain charge that ever draws. that a pixel frequency generator because pixels formed depending on the (14) to the control electrode (8) of the electron amplitude of the video signal is disadvantageously a Beampipes (4) and a video signal amplifier (1) 35 additional deflection device required from to the focusing electrode (9) the electric modulator is controlled. The modulator tube is connected. receives both the video signal and a high- 3. Circuit arrangement according to claim 2 for the frequent signal of an oscillator. With this reproduction a colored picture template, through which point-to-point charging is carried out characterized in that three cathode ray tubes 40 apply a slight additional vibration (4,5,6) are provided and to the focussing on the cathode beam by a deflection device (9,9 ', 9 ") of each electron direction, with the additional oscillation of the deflecting beam tube one of the video signal amplifier movement is superimposed, achieved. Through this to- (1,2,3) connected. additional movement is to be achieved that the load 4. Circuit arrangement according to claim 2 45 not evenly distribution along the line, or 3, characterized in that a saw but occurs in the form of series of points,
tooth voltage generator (15) is provided, the frequency is equal to the square-wave pulse frequency from the German patent specification 932 947 terhin a method for the production of rastered the pixel-frequency generator (14) and printing forms by photoelectric transmission from the to the deflection plates (12, 12 ' , 12 ") of the electronic 50 image templates, in which an image template electron beam tubes (4, 5, 6) is connected and optically scanned, and the resulting Sivom pixel-frequency generator (14) is used to determine the engraving depth in the case of raster irodic shift of the light spot (19) serves clichés. for the compensation of arising on the film In the USA. Patent 3 197 558 is a ver current aperture distortions and image point 55 drive for the reproduction of color images described, stretching is synchronized. in which the formation of grid-shaped image templates 5. A circuit arrangement according to claim 4, characterized in that the spacing between the raster changes in that, in order to avoid points, it is carried out as a function of the color.
Moire formations a generator for generating aperiodic signals is provided from German patent specification 1 800 665 and the 60 finally has a facsimile color image receiver with electron beam tubes (4, 5, 6) in which the discharge lamps have deflecting plates that lead to the Deflector plates emitted color components to reproduce a (12, 12 ', 12 ") arranged vertically and superimposed on the original image, with the light-periodic signal generating generator illuminating with different color components being combined in a single light beam 6. Circuit arrangement according to one or more of this light beam on a light-sensitive material reren of the preceding claims, being focused thereby; the reproduction of the original color image indicates that between each luminescent screen it is achieved that a deflecting mirror syn-