DE1928064B2 - COLOR IMAGE TRANSFER SYSTEM - Google Patents

Description

1 ■ ^; '2

The invention relates to a color image transfer- mutually correspond. The ansystem with a color filter on the receiving end, '. given way both a color and a which achieves phase lock in synchronism with the transmission-side main scanning, so that a high image corresponding to a transmitted signal is possible in front of a quality.

The light source is rotatable, the emitted light of which is 5 In the drawing, the invention is an example strength depends on the strength of the color signals that are illustrated in and specifically show Line sequence are transmitted from the transmitter side, Fig. La and 1b schematic overview drawing

so that, for example, when transmitting a Α signal to explain a color of the invention A filter portion of the rotatable color filter in the light facsimile system, ray lies and colors this to Α-light, with a io Fig. Ic a block diagram of a ge transfer in Fig. Ib of the colored light to a linear showed circuit for automatic phase control, Scanning part and with a perpendicular to the linear scanning F i g. 2 a block diagram of a pulse shaping

part, so in the auxiliary scanning direction movable, colored circuit, a ring counter and a signal switching light suspendable, reproduce an original color circle, which are shown in Fig. la, the recording material. 15 F i g. 3 a a circuit drawing for the detailed

Such color image transmission systems are already a representation of a pulse-shaping circuit and has been proposed (German patent application for a ring counter circuit shown in FIG. 2, 1 926 577). F i g. 3 b a circuit drawing for the detailed

A facsimile system is already known (British representation of the signal circuits and a phase patent specification 651783), the one for the reception and the 20 signal modulators,

Recording of color images on sheet-like fig. 3 c a circuit drawing for the detailed

Recording material is suitable. For the recording representation of a substantial part of the F i g. 3 b and A carrier is provided for the processing material. Between- F i g. 4 a to 4 e and 5 a to 5 d waveform diagrams

between this carrier for the recording material grams to explain the mode of action of the in and the recording parts 25 F i g. 3 b signal circuits shown, a relative movement is initiated. A color facsimile system according to the invention is intended to

This is done using color markers, which will now first be explained with reference to FIGS. 1 a and 1 b continuously with the surface of the leaf-shaped becoming. On the in F i g. 1 a shown transmitter side Drawing material are in contact and their will be a black and white or color original Contact pressure on the recording material wound in 30 a drum 1, whereupon a main match with shading changes scanning process effected by rotating the drum changes which are present in the image to be recorded. is, while a sub-scan in the manner he-Die known device already has a scarf that follows from a lens system 2, one for processing that controls the operation of the control mechanism for - color decomposition serving dichroic prism 3, Starting and stopping the carrying device or, for 35, a photoelectron multiplier 4 and the like Allows arranging the recording paper. standing optical system in the direction of the drum-Auch is in the known device is already moved forward. It is a phase detector 5 knows that it is provided on a synchronization and one, which with each revolution of the drum 1 in Phase synchronization arrives. How this can be achieved a direct coupling with the drum shaft should, however, is not specified. 40 phase pulse generated, and this phase signal pulse

The object of the invention is, in the case of a color image, is in each case in a certain circumferential position transmission system delivered the image quality by making the drum, which is generally the a color and phase synchronization between the transmitter position and the interface of the original. Everyone and to raise the receiving end. those generated for each line of the main scan

This object is achieved according to the invention in that phase pulses, namely each which is solved by dividing into three, are synchronized to achieve the color of the three through three lines of the main scanning process and phase synchronism between the generated phase pulses by means of a ternary ring transmitter and the receiver side on the transmitter side - counter 7 generated by a pulse forming circuit 6 ersignal on each line of the main scan suspended phase pulses serves as a gating signal for, will continue η phase signals divided by η lines 50 a signal circuit 8, which are generated from gate circuits 8 ^, the main scan by η 8 _G and 8 _{ß is} composed, to which are further below, each of the phase signals obtained in this way will be discussed in more detail. Use as a gate switch signal for each of the produced The original is used to resolve into a number

separated color signal can be supplied, each color of picture elements is scanned, each of the light characters corresponding to the picture signal for transmission in line sequence in a signal element is controlled by this gate switching circuit, the dichroic prism 3 is subject to color separation in the signal and a through the «-division- order G (green), B (blue) and R (red) into three main colors, which only correspond to a certain one of the color signals, and each of the phase signals speaking in this phase signal is used as a way of separating colors from one another with the help of phase signal for phase synchronization feed 60 of a photoelectron multiplier 4 in a bar and is transmitted, while the light intensity of the respective picture element proportionally receiving side converts the position of the relevant electrical signal. After this, color rotation, each of the color signals R, G and B having separated out colors, is modulated by this phase signal in synchronism by means of a mode filter and a masking circuit is fed to the corresponding corresponding one from the transmitting end in 65. In the masking circuit, color signals transmitted can be determined in accordance with the line sequence. In this way, the transmission is achieved, and each of the color signals is then fed to a signal circuit 8 on the side and the reception-side scanning process. In the signal switching

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Circle 8, which consists of gate circuits 8 _R , 8 _G , 8 _B , and a gate circuit 8 _ß for the blue channel bewird each of the color signals red, green and blue stands through. The color signals red, green and blue are fed to each of the aforementioned gate switching signals in succession at the connections R, G and B , and the outputs of the flip-flop circuits 7 _Ä , 7 _{G are} electronically switched for each line of the main scan. In other words, one uses _ß 5 and 7 in the ring counter 7 are respectively the, the inventive color facsimile system control terminals a, b and c, respectively of the gate 8 _Λ, a line-sequential transmission system. 8 _G and 8 _ß supplied as gate switching signals. Everyone who

In addition, it is necessary to simultaneously achieve the outputs of the gate circuits in the signal color synchronization and the phase synchronization with the circuit 8 is connected to a common load R _L receiving side from the transmitting side from io.

even before the start of the secondary scanning, a phase each of which is signaled with each revolution of the drum 1 to send. For this purpose, phase pulses are generated in the context of the pulse shaping the invention provides an arrangement that is fed to the circuit 6, and the output of the impulses, circuit 6 which forms the phase signal only in that period of time will send out each of the flip-flops which is supplied to a specific one of the color signals 15 circuits in the ring counter 7. To Red, green and blue correspond to the arrival of each of the phase pulses in the line sequence should be transferred. For example, if the ring counter is 7, each of the three flip-flop circuits Transmission of the color signals the order red - tilted, so that alternately one after the other Green-blue provided so the phase signal output is generated.

sent out only in the period of time which, around a 20 thereafter, appear at each of the exits of the

To give an example that corresponds to the red signal. Flip-flop circuits 7 _R , 7 _G and 7 _ß in the ring

With regard to the respective square waves, whose counter 7 is obtained by gating the gate signal by dividing them into three parts in the ring counter 7, this means that a monostable circuit 33 is shown in FIG. which correspond to the rising part of the red control terminals a, b and c of the gate circuits, the gate switching signal corresponding to the signal or the corresponding color signals in the signal switching part of the circle 8 corresponding to the blue signal. By means of this gate gate switching signal, switching signals is actuated in such a way that each of the color signals red, green becomes so that the phase signal can only be generated in that time span and blue in succession for each line that corresponds to the red signal. 30 main scan switched.

Once this phase signal has been generated, it is used for modulating. 3 a is a detailed circuit diagram of the circuit diagram in FIG

lation in a phase signal modulator 34, whereupon F i g. 2 as a broken line

the transmission to the receiving side takes place. closed part 7 shown ring counter circuit

The phase signal is then given for a given and the pulse-shaping circuit 6. In Fig. 3a A period of time before the transmission of the color signals to the 35 becomes a phase receiving side supplied to an input terminal sent in order to synchronize with the pulse of the pulse-shaping circuit 6, To ensure the receiving side. which consists of a Schmidt circuit. Exceeds

In the above, the transmission side of the circuit according to the invention is an input signal of a same-color facsimile system If the remaining level value is described in the outlines, the output is a been. Next, the signal circuit 40 is supposed to receive a square wave with a constant voltage level are explained in which each of the dye hold. This square wave output becomes any of the signals red, green and blue for each row of the main flip-flop circuits in the ring counter 7 as scanning is switched electronically, which is namely supplied control pulse. The outputs of the flip-flop too belongs to the objects of the invention. Circuits in the ring counter 7 appear in each case

Usually one used the connections a, b or c and switched the signals of a changeover switch, a switching control connections a, b and c of the relays or the like, but these switching means were for gate circuits for the fast switching shown in Fig. 3b because of the disturbances on the channels R, G and B supplied. A contact points shown in Fig. 3a, on bouncing phenomena and the like set connection d _x serves as an operating instability to be returned and because of the 50 output connection of a phase pulse for the phases caused by the mechanical switching actuation synchronism and is via a in Fi g. 1 a mononic vibrations or noises shown not suitable. stable circuit 33 with a control terminal d ₂

The phase signal module shown in FIG.

The signal circuit provided in the facsimile system is intended to be connected to lators 34. A connection d ' in FIG. 3a now with reference to FIG. 2 to 5 are explained. At 55 serves as the output terminal of a phase pulse for

F i g. 2 is a block diagram in which the phase synchronization, if black and white signals

a pulse-forming circuit, a ring counter and (monochrome signals) are to be transmitted,

a signal circuit is shown. One shown in FIG. 2 through which this impulse is the unchanged

a broken line circumscribed part 7 represents the output waveform of the Schmidt circuit 6 ternary ring counter that delts from flip-flop 60. This means that the invention

Circuits 7 _R , 7 _G and 7 _B consists. The reference number 6 color facsimile system according to its structure both for

denotes a pulse-shaping circuit, via transmission of a black and white original as well

whose input connection phase signal pulses is suitable for a color original.

are passed, which is carried out with each revolution of the In Fig. 3b is a detailed Drum 1 are generated. 65 Circuit drawing of a signal circuit 8 like

Reference number 8 denotes a signal circuit being the one shown in FIG. 2, in this illustration

draws from a gate circuit 8 ^ for the red from top to bottom each the gate circuits for

Channel, a gate circuit 8 _G for the green channel, channels R, G and B as well as the phase signal module

5 6

lator 34 are reproduced. In Fig. 3 b, channels R, G and B, brought about by the phase signal modulator 34, are also shown one after the other. supplying a signal taking place, for example in FIG. 3 b, the triangular symbols denote the integrated output connections R, G and B of FIG. 4 a reproduced in FIG. 3 b and the details of the circuit structure in .5 matching square waves, the timing of which is shown from-F i g-3 c. In Fig. 3 b is the circuit for tuning in FIGS. 5 a, 5 b and 5 c illustrates each of the channels is a gate circuit with amplifier, via the control connections α, & and c, produces each effect, with one of the gate circuits for the color channels R, G and B via a resistor R _f Negative feedback circuit is provided so that the one amplified output only when a positive output impedance is supplied in the operating state very low io tive pulse. As mentioned earlier. In the circuit of the top level within the was, in this case the output impedance of the gate circuit for each channel is far higher at each of the on-circuit in the switched-off state than in the decisions R, G and B a corresponding input drive state, so that the gate circuits for all signal supplied, while on each of the control channels on the same, common load R _L are connections α, b and c a corresponding gate signal 15 can. Consequently, R _{L is} supplied through the common load. as a whole, get a signal waveform passed by

If one of the functions shown in FIG. 3b the sequence of the color signals red, green and the circuits shown each form a negative blue voltage, as shown in Fig. 5d, with a voltage of about -6 V applied Ver 20, that in the same way as with the Torlustig, the signal transmission is interrupted, and circuits for the color channels R, G and B due to the negative feedback effect via the resistor R _f feeding a carrier wave from an oscillator is canceled, creating a high Output input signal via the input terminal PH and impedance is effected. of the phase signal from the aforementioned monostable

This should be done with regard to the gate circuit 8 _R for the circuit 33 in FIG. 1 a via the control connection d ₂ i? Channel, namely for the one shown in the illustration of a modulated phase signal at the output connection F i g. 3 b delimited by a broken line is obtained. In this embodiment, each circuit will be explained in more detail by way of example. One of the color signals red, green and blue after the input signal has taken place, such as that in FIG. 4 a reproduced, synchronization with the receiving side by via is supplied to the ii connection in Fig. 3b, and a 30 carry the phase signal to the receiving side in a gate signal, like that of Fig. 4b, is the given time period before the transmission of the color control connection α supplied. If the gate switch signal is negative (namely before the start of scanning), as shown in FIG. 4 b is shown, a line sequence is transmitted. Of course, in this case, the Figure is in the detail drawing. 3c shown the circuit of the uppermost stage for 35, the color signals red, green and blue during the i off to each of the control terminals of the gate circuits for transistor TR ₁ to? -Channel, whereby the emitters Transmission of the phase signal a negative Spander transistors TR ₂ and TR _S following resistance voltage applied, whereas during the transmission it becomes infinitely large, so that the circuit loses its color signals red, green and blue to the control amplifier effect and to the output terminal d _{2 of} the phase signal modulator a negative connection 38 and 39 only a collector residual 4 ° tive voltage is applied.

Voltage such as that illustrated in FIG. 4c. Since, as stated above, the switching

appears. The transistors TR ₂ and TR _{3 have} amplifier signals red, green and blue, which fall within the scope of the effect and appear amplified waveforms of the object of the invention, by means of the input signals only at zero potential of the gate switching signal on each line for scanning each of the colors the output terminals. 45 signal circuit takes place, each of the color signals

If one leads to the control connection α a right-exact and quick switching, and above it a corner wave like the one shown in Fig. Vibrations, the uppermost stage and a noise or the like at the earth terminal E are due to output waveform such as that of FIG. 4c, and at the 50 are avoided.

The secondary side of the transformer T becomes the same. The description referred to above on the

Current component blocked, so that a waveform sender side. It should now be based on Fig. Ib that is generated as it is in FIG. 4 d is shown. To be explained in the reception page. This case remains on the transformer T see a conversion gate signal in its waveform for the main scanning process in order to obtain differentiated waveforms of parts of a recording in one image plane, and if so there is a suspension device for the conversion of the circular rule, which is attached to the transformer T - By arranging the sampled values in a linear spacing R _v to neutralize this differentiated order, using which is set with optical fibers ar-waveforms, it is possible to work on the seconds. A secondary scanning process takes place through the rear side of the transformer T, a waveform can be extracted from a light-sensitive material which is influenced by the camera holding the gate. The direction perpendicular to the signal is now completely free, as shown in FIG. 4 e linear scanning direction of the optical fibers. Each is shown. Both the transformer T and the variable resistor R _v , which is transmitted from the transmitter side in line sequence, are therefore used to remove color signals, after the direct current component has been perceived and amplified, the output wave 65 is fed through a modulator 9 through a xenon discharge tube, which in this one is effected for the successive repetition of the above intensity modulation. Then the process in each of the gate circuits for the coloring of the light emitted by the discharge tube is carried out by means of

i7; ; 8th

a rotary color filter 11 (a filter, consisting of the rotary color filter 11 and the; phase comparison of its rotatable disk with three fitted colored sector disks 19 run on the other hand with the same filters for red, green and blue, which each revolve around the speed, as shown in Fig. Ib can be found.
a third of a ring-shaped part) So if that is correct on the receiving side in the phase

colors ,. by a rotatable fiber optic assembly 12 _i; 5 detector generated phase signal coincides with the phase signal transmitted by the transmitted and transmitted into the main scanning system, so radiated that consists of optical fibers 13, which is at the same time the synchronism of the color filter with one end in a circular arrangement Color signals as well as the synchronism are brought about, while their other ends are linear, on both phases on the transmitting side and the receiving side, so that a color image reproduction is guaranteed. . ·.: ■; .- ■;
is made possible by changing the photosensitive material. 1c exposing the photographic material to the scanning light. sensor control circuit is used in the phase detection

In this case, when it comes in, it is the phase pulse generated by the transmitter 20 via an impulse side Coloring circuit 21 of a gate circuit 22 transmitted in succession as gate signals Red, green and blue on the receiving side 15 switching signal supplied. The signal input of the gate required, the position of the rotary color filter II so circuit 22; the phase pulse is added to the specify that the synchronism with the series is transmitted from the transmitting side and that the sequence of the signal input is guaranteed, the more the other pulse-following circuit 23 happens. Here Exposure of the photosensitive material by the width of the generated on the receiving side, the light of the xenon discharge tube 1Ö vorzueh- ao provided as a gate switching signal phase pulse men. For this purpose, the position of the color is chosen to be slightly larger than that of the sending side Rotary filter 11 in the context of the invention before the transmitted phase pulse. In the goal scarf start of the secondary scanning corresponding to that of device 22, a signal output appears only when the The phase signal transmitted from the viewing side is fixed - from the transmitting side .transmitted phase pulse with the placed that coincides only a certain one of the color signals 25 generated on the receiving side. To the off-red, Green and blue are assigned (in the in Fig. 1 a inferring a faulty function are the two shown Embodiment for this is the rot- the phase in the context of this embodiment only signal selected). then considered to be synchronized if

This process, like the other changes, should occur three times coincidence, i.e., Drive processes on the receiving side in the following 30 three phase ends are used as a gate output one after the other will be explained in detail. Received on the reception impulses in a comparison counter scarf side is only an automatic start-stop 24 are counted. Is the above prerequisite Circuit 14 always in operation. First, a is not met, so a reset circuit 25 is im conducting the automatic start-stop circuit 14 in the sense of resetting the automatic phase operation taken, which is actuated by the control circuit 32 from the transmission side 35. In this case it will transmitted carrier wave (including the phase clutch 18 disengaged so that the rotary motion signal) is tuned, a main operating switch is closed due to the rotary color filter 11, the phase comparison, and a main motor 15 is put in gear sector disk 19 and the rotatable fiberglass assembly. The two .Main motors on the transmission 12 is interrupted. Go from the sending side and on the receiving side, the next phase signal in the automatic If quartz oscillators of the same frequency took a phase control circuit 32, then a drive would take place, so that an independent 'synchronization of a time correction circuit 26 for the system is used. Clutch actuation in the sense of engaging the

Next, an automatic level adjustment,;. Coupling 18 via a drive circuit 27, woschaltung 31 put into operation. If the rotary movement of the rotary color filter 11, a potentiometer 16 by means of an automatic phase comparison sector disk 19 and the rotatable level adjustment motor 17, an input reference level glass fiber arrangement 12 is introduced. When it is reached again, the automatic level catch-up switches itself off so the same operating processes as servomotor 17, with which the level setting ends beforehand,
is. 50 If phase synchronization has now been brought about, see below

If this is followed by the transmission from the transmitting side, a response signal with a frequency of gene phase signal in an automatic phase 800 Hz by operating a response signal control circuit 32 a, then a clutch 18 transmission circuit 28 to the transmission side zurücküberdes Main motor 15 engaged, and the rotatable averages. The sending side speaks to the input of the Glass fiber arrangement 12, the rotary color filter 11 and 55 response signal sent from the receiving side a sector disk 19 for phase comparison are turned on, and then the sub-scanning becomes superimultaneous initiated via a group of wheels to a rotation of the image signal. After moving out actuated. Transmission of the response signal also begins on the

Since the speed ratio of the rotatable glass receiving side is the secondary scanning by commissioning fiber arrangement 12 to 'the phase comparison sector 60 would take a drive circuit 29 for reception disk 19 is set to 3: 1, this is done for each of the image signals.

three revolutions of the rotatable fiber optic assembly.

voltage 12 in a phase detector 20 in the gathering line caused reception failure act with the phase comparison sector disk 19, on the other hand, the power source is switched off and that Phase pulse generated, corresponding to that of the 65 camera housing 30 automatically in the exit point transmitting side forward transmitted phase signal that is only fed back provided the transmission line a certain of the color signals red, green and not ready for operation again within 10 seconds Blue is assigned. is.

Claims (4)

Patent claims: 1. Color image transmission system with a color filter on the receiver side, which can be rotated synchronously with the main scanning on the transmitter side according to a transmitted signal in front of a light source, the emitted light intensity of which depends on the strength of the color signals that are transmitted in line sequence from the transmitter side, so that, for example, during transmission of an A signal, the A filter portion of the rotatable color filter is in the light beam and colors it to Α light, with a transfer of the colored light to a linear scanning part and an original color with a colored light that can be exposed perpendicular to the linear scanning part, i.e. in the auxiliary scanning direction reproducing recording material, characterized in that the color synchronization and the phase synchronization between the transmitting and receiving sides can be achieved simultaneously, with a phase signal being generated on each line of the main scan on the transmitting side, furthermore η phase signals represented by η lines de r main scan are generated, are divided by η , each of the phase signals obtained in this way can be used as a gate signal for the respective over-separated color signal, each color signal for transmission in line sequence in a signal circuit (8) is subject to the control effect of this gate signal and a through the η -Partition obtained, only a specific one of the color signals corresponding phase signal for use as a phase signal for phase synchronization can be fed and transmitted, while on the receiving side the position of a color filter (11) having the relevant, separated colors by this phase signal in synchronism with the respectively corresponding, from the transmitting side transmitted in line sequence color signals can be determined. 40 · 2. color image transmission system according to claim 1, characterized in that the receiving side when transmitting a corresponding only one certain of the color signals generated phase signal from the transmitting side to respond this phase signal and can be actuated to start up a main drive system (15), wherein the rotary color filter (11), the main scanning system (12, 13) and one for each line of the main scanning Phase signal generator (19, 20) operable to generate a phase signal in actuation connection are driven together. 3. color image transmission system according to claim 1, characterized in that the receiving side has a structural design, on the basis of which they in the transfer of a corresponding only a certain of the color signals generated phase signal from the transmitting side to the receiving side Creation of a likewise only one specific one of the separated colors, which in this particular color signal has been converted, corresponding phase signal can be actuated, wherein the main drive system (15) in the sense of a receiving-side synchronism of the receiving-side generated and the phase signal transmitted from the transmitting side can be controlled. 4. color image transmission system according to claim 1, characterized in that a signal circuit (8) is provided which has a plurality of gate circuits (8 R, 8 G, 8B) with amplifier effect and a plurality of negative feedback circuits, each for returning part of the output voltage the corresponding gate circuit (8 R, 8 G, 8B) can be actuated on the input side, a transformer (T) being provided for blocking the direct current component in the amplifier stage, the outputs of the individual gate circuits (8 R, 8 G, 8B) on a common load (R _L ) and each of the color signals can be switched electronically in succession by means of the corresponding gate switching signal. For this purpose 3 sheets of drawings