DE1762140A1 - Automatic control of signal generation systems, in particular television camera systems - Google Patents

Description

Automatic control of signal generation systems, in particular television camera systems

The invention relates to signal generation systems and, more particularly, to automatic control of television camera systems.

The invention is used in connection with a Pernaehvidikonanlage described the inventive method and the Apparatus according to the invention can also be used in other systems be used. For example, eleioh bal Diffraction is a common signal of a more general one Use type, ntalloh

of a WsohsalstrcMlgnala, «read a rerMnderllohen 01 elohst roawert Bodullart, wobal dar Olaichatraawart you alnasj fastpunkt starting changes. Xn dlaaas) case wla also In dap * u descriptive case can be a signal hit ainar characteristic Oröß · be derived, which is in übaralnatlonung nit the amplitude of the Weoheelstrotna signal, for example based on a signal measured from Peak 2U Peak,

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changes. By "composite" is meant a signal, dae Equal information at least for certain tents components and other components owns.

Ideally, television systems should have a constant siren voltage be operated, which provides optimal operating conditions for the vidicon tube »and the scene exposure should can be controlled in such a way that the current of the video output signal remains uniform. In certain cases the scene lighting is But hardly controllable, and the base voltage of the vidicon tube is changed accordingly so that the stream of the video output signal remains uniform.

Changes in the sole shape, the changes in the sti en · Vldeoauagangsaignala are accompanied by changes the dark current component, as it is characteristic of vidicon tubes. This dark metropolis, a part of the total Vldl Konsusgsngsstrom, depends on the Ssenenbellohtung and does not deceive any usable · information.

As is known, the dark current is that when a concretely occurs, among other things from the floor tension from- ' devoted. If the scene lighting decreases, take Sole tension due to the üblloherwelae used apension-RUokkopplun ^ aayateee: automatically * u »whereby the

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Dark tetrara of the Vidlkonröhre is enlarged. Accordingly becomes the ratio of information signal flow to total signal flow allmlhlioh reduced by the vidicon tube, bia daa information video signal only a small part elnea orundaignala is. How nooh based on a description of the output signal is shown, an increase in Sohwarzwerta of the Vldlkonasignal from near «the dark stroma of the Vidicon tube accompanied. By scanning the entire video signal The control of the coupling solenoid is therefore an incorrect one Indication of the size of the inforraationavideoaignala in the tube.

The object of the invention is to create a method and a device with which a certain QerHusoh component of a composite signal can be eliminated. In the broadest sense, the invention relates to a method for eliminating the OerKuschkomponente one of a Informatlonskom- λ component, a OerKusohkoaponente and other components of the composite signal by means of an electrical circuit, wherein daa composite signal isolated as both the Oertusohkomponente and Informatlonskomponente and other tents none of the two Contains components. According to the invention, the method is characterized in that the composite signal is added to the electrical circuit in the area in which the signal contains the two components, and the external component is eliminated by the composite signal only during this time is detected.

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According to the invention , the effect of the Dunfcelat roaa is eliminated before the video signal is scanned, whereby a control signal for the dropping loop is generated so that the real information video signal is emitted. This effective high level signal is the characteristic low level OrOB *, which is kept constant, instead of the information signal and the information level. This Oerlusohkoaponente of the signal contains at least partially the dark strea that is present in the Vidlkon tube.

The invention enables the conversion of a best string Signals from one pore to another. The invention of IKBt • I to control the ski voltage of a vidicon tube use·

AueHÄrungabeiepiele of the invention are explained in more detail with the aid of the drawings. Ba own

Fig. 1 is a bloody diagram showing the principle of the invention represents your age in connection with a vidiconri

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Flg. 2 a · wave »which, in a separate form, daa

represents the sant output signal of a vidicon tube,

Figure 3 is a level diagram of a preferred embodiment examples of the inventive device «

4 shows a circuit diagram of another exemplary embodiment. '

In Fig. 1, a television camera tube 10 is shown. the Stirring can take any form} required here is that it can produce an output signal whose Amplitude can be controlled in that at least one direct voltage applied to an electrode or the bias voltage applied between two electrodes is changed.

The tube 10 consists of a sleeve 11, which is in a through-

visible plate 12 ends. The plate 12 is coated with, the lh from a serving as the signal output Slektrode conductive Sohloht and a photosensitive layer. An image of the illuminated surface is placed on the light-sensitive sole 14 by means of an optical lens system 18. The object 16 is focused, as a result of which changes in potential are generated in the light-sensitive sole. The photo-sensitive layer is scanned by an electron beam,

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generated by a cathode 20 by a grid 22 controlled, by a »riding (litter 24 beao accelerated and ■ by means of a focusing smooth 26 and an Ausrlohtspule being focused, aligned and distracted; the focusing coil and the deflection coil are shown in FIG. 2 through the coil 28. Am a pre-tensioned fourth grid 30 creates a smear field, over speed of the electron beam and ensure that the beam hits every element of the photosensitive Schioht hits vertically.

Cpuie
A suitable operating test is applied to the / 28, while suitable operating voltages are applied to the acceleration smoothing device 24, the supply grid 30, the focusing grid 26 and the two coils. The cathode is connected through a resistor 34 to a suitable voltage source 32; the cathode exposure is raised above the earth potential by an amount that is at least equal to the maximum required bias voltage such as the control grid and cathode. Tsktia pulses, which consist of a series of negative Reohteo waves 44, are sent from the control circuit 40 to the control grid 22 in a well-known catfish

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created. Instead, clock pulses that consist of positive Reohteo waves to the cathode 20 can be created.

During the tent interval, there are no clock pulses The tube 10 is conductive between the cathode 20 and the solder sensitive layer 14 The amount of conductivity of the tube 10 depends on the value of the exposure of the photosensitive layer 14 p.b, which increases the conductivity of the tube or is reduced if the dl · llchteaipflndliohe layer 14 means of the electron beam generated by the cathode 20 is scanned during the period in which the clock pulses are not available is the video monitor 10 is selected and la ideal fail should generate a NuM output signal so that the screen aohwarr, 1st.

As is known, however, the black level of the stirrer changes ι it de? Grufia of the dark current that is present in the vidiconrhia. The black value of the stirrer can accordingly be increased, so that an exposed area is created on the screen, although the conductive layer 14 serving as a transmission shield is not attached at this particular point. How do you prepare

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If the dark tree of the TIdIkOBiOhT * depends, among other things, on the size of the screen voltage that is applied to the flexible layer 14. Thus, the change in Sohlrauspannung Depending on the Beliohtung the Sohloht Ik has a corresponding change de "Dunkeletroma result.

With an increased illumination of the hollow arm, the sound voltage is reduced, and with a reduced illumination of the base 14, the sohiro voltage increases so that a relatively uniform video information signal is produced with an increase and decrease in the screen tension greater than ». gets smaller. Thus, through the video informational goal, a direct current value of the dark atrocity is generated, during the tent awning, in which there is no clock, a signal from an information component and an OerKusoh component suaaaejengeaetztea signal; A signal is present during the cycle lapular time span because it can be described as an infonaal signal, since the cycle time lapular time span is often used as a synonym for general information.

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The level of the fire is determined by the tension in the bed of the bed, which is impressed on the light-sensitive hole Ik via the resistor 48. The video continuation signal is changed as a function of the current situation, and the video information signal is only scanned at certain times, namely during the periods of time in which the clock pulse is not present. The weighted video information signal is applied to a video amplifier 60 through a capacitor 50 and then fed to an output cable 62 which feeds a monitor (not shown). The signal la output cable 62 consists of the additional signal elnsohlieBlloh the clock pulse and can contain an information component; During a certain period of time it contains a video information component and a GerKusoh component, the noise component mainly consisting of dark streaks.

The end that came together from the Vldikonrtfhrf Signal as seen from output cable 62 is

soheaatlsoh In Flg. 2a shown, la the a Taktiapule interval 68 as a negative direction

Signal shown 1st. ΪΛ — Μ 81gnal has a zero current value

70, which corresponds to a Mullsohirmstrc ·, where this Kullatrcewert is substantially smaller than one

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Black level 72 let «which corresponds to the black level of the tube. This lullstras value 70 comes from a su large one negative potential, de · zwlsohen the control electrode and the cathode of tube 10 is applied to ensure that tube 10 is out. Da · signal then rises to an orund value «which from a« darkestros value 72 and a superimposed Tldeolnforaatlonaslg » nal 7%. The clock pulse 68 has, as shown, swel different clock widths. The Flg. 2b shows the information component dea signals 78, v «n des the tactical pulse counterpart (a. at 8o) removed 1st. The special waveform shown in FIG. 2b represents the pure video information signal without Besugnahae on the Taktiepulawert bare the dark gods as explained in more detail in the following will.

As shown in Fig. 2a, a voltage detector was used necessarily that sat from point to point Perceive the signal as it τοβ the lower value of the Taktiapulainvalls 70 on the highest point of the video info line 74 increases. DL use this The signal to control the drilling fluid was open » slohtlloh a fslsohe advertisement de · tatslohllohen, of Tip su tip gesisssenen signal · js, namely because of the presence of · the · Dunkelsti n — nrta 72. At

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If the layer 14 is not exposed to light, the width of the window is enlarged, so that the dark value 72 is also increased enlarged. In this fur corresponds to that of the lower ones

Tsktiapulswert 68 measured at the peak of the video signal Worth a little bit of video information

su Oeeaatalgnal, since the stsMsssengesetste signal one owns a large share of Dunkelstroai. IrflndungageaKl should the reference to the clock pulse value can be eliminated, whereby a tatalohliehe 3pltsebanselge dee pure Videolnf oraatlonssignala is generated. '

Mm is now back to VIg. 1 reference genosaen. A (letter 84) is fed to the output of the video amplifier via a line 86, which is opened and closed depending on the operating mode of the timing control circuit 40. The output of the timing control circuit 40 is connected to the electrode 8t of the Rflkre 10 and a relay circuitry 9O ₉ The gate 84 is polarized in such a way that the getter is opened when there are no tactiapulae. As a result, the latter is closed when the clock pulses are present The signal in line 86 corresponds essentially to the wave shown in FIG. 2a.

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As from a more detailed description of the circuits of the Figs. 2 and 4 will emerge, the gate 84 "in Auagangaalgnal appearing on line 96, the “independent Sound the existing Olelchstrom values in line 86 the video format signal is divided. The ·· Oleiehatroonrerte can use the negative clock pulse or the dark atroai contain «those present in the composite signal are. Daa signal on line 96, the la general the In Flg. 2d has a Wechaeletronverstllrker-, detector »and OleiohstromveratKrker circuit 100 supplied. The posture 100 replaces a appearing in line J02 and thru your Resistance 48 wandering "" Olelchetron-Auagang suitable that that of layer 14 aufp: eprl "^ e Sohlrmapanmmg in Abhanglekei.t of the decrease · of the lace videoinforeationaeignali seeks to enlarge and with the nearness of the Spitsen-Vl (leoinfonoatlonaelgnal8 reduce the visual sensation suoht.

As can be seen from the preceding, the stirrer das suaassienseeetst «video signal derived and using of a gate, which is opened as a function of the clock pulse or is closed, the pure VldeolnforBatlonsslgnal generated, whereby a control signal is provided.

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which in turn controls the value of the sire tension. Consequently becomes the screen voltage depending on the peak video information signal and not controlled by the composite video signal. '

In Flg. 3 are the details of a preferred KS according to the invention Device shown. The tube 10 operates exactly as explained in connection with FIG. 1, and the entire output of the tube is passed through the capacitor 50 and a Laot resistor 106 to the video amplifier 60 supplied. The output of the video amplifier A monitor is supplied via an amplifier system 108 and also via line 86, a resistor 110 and a capacitor 112 is applied to gate 84.

The qatter 84 in the embodiment shown in Fig. 3 - example consists of a field effect transistor (FET) I.

120, its base 122 to the capacitor 112 and its crease 124 to an initial posture including one parallel output circuit 126 is connected 1st. The getter 84 is opened as a function of clock pulses, or closed, via a line 92, a resistor 128 and "Inen connected to the grid electrode 132 Condenser 130 are supplied. So if the clock

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lap pulses appear, the field effect transistor 120 is biased * practice turning off the transistor, so that the Durohgang of the video signal is prevented by the field effect transistor. If the clock pulse is not available, If the gate 84 is open, so that the video signal on the line 86 daa gate 120 can pass. Between the oattor electrode and the earth is a diode 136 swleohengeao held, which prevents the Oatterelectrode from becoming so positive that the separating elements of the (letters 84 be destroyed.

The video signal coming from Oatter 84 is transmitted by the

Koppelkrels 126 fed to a Weohseletromversttrker 140. The Koppelkrels 126 consists of a parallel hold of a resistor 142, which is a capacitor 144 and a resistor 146 are connected in parallel. A second capacitor 148 is to resistor 146 connected in parallel, including the Prequeilkanapreoheherakterlstik of the alternating current amplifier l4o. In order to If the system responds to a bright area with a width of 1/10 of an abyssal cell, the frequency limit should be of the amplifier on the order of 130 kiloscycles per second are a $ 25 cell system. This Feature is determined by the specific use of the system.

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The electrical power supply 140 bears a field effect transistor 152, which is connected to a positive potential source 154 via a resistor 146 and is grounded via an RC connection 158. The output of the Weohselstromverstllrker 140 is fed via a capacitor 162 to an isolating and driver stage 166 which has a field effect translator 168. The base 170 of the field effect transistor 168 1st upper line 172 to the positive Po * tentlslquelle connected 154, and the crease 176 is grounded via a resistor I80.

As can be seen from the foregoing, all of the video signal appearing on line 86 is fed to gate 84 which is opened or closed in response to the presence or absence of the clock pulse. If the clock pulse is not present, the (letter is opened; the gate 84 then supplies an output signal which is only available from the Wechaelatrom Vldeolnformatio & aslgnal 78, which is in \

Connection with Flg. 2B. The field effect transistor 120 is during the clock pulse interval switched off, so that the signal appearing in line 86 cannot pass the field effect transistor 120. This corresponds to the time period Aus Flg shown in FIG. 2B. 2B let erelohtlioh, da «the Vechmelatrom Vldaolnfermationsslgnal independent of a Qlelohatrom reference

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worth through the (tatter is fed »because of the Tektlapulslntervsll Removed 84 words from exit dss Osttsrs. Moses * usgangaalgnal becomes duroh a weohaelstroa-Yeratlrker 140 amplified, and the 8troakapasltKt dss circles "is enlarged by the separation and driver stage 166.

The output of the separation and driver stage 166 is via a P capacitor 184 of a) peak voltage detector 86 supplied, the SWS1 against "intimately switches off" has diodes 188, 190. Dar Back-up voltage generator 186 is used as an output capacitor 194 to charge) the capacitor 194 is such; laid out so that there are Olslehstronsus-

• ■ .- .. "'■

eangaslgnal, whose OrQfS is derived from the Spltse su Top value of the Vldeolnfomatlonsslgnals enjoyed depends. The capacitor 194 acts on another filter, including the line 196 an Ausgengsslgnsl old low weoheelantell see below produce.

The output of the peak pennotectore 186 can be used an adjustable control circuit 200 can be varied, which from slnea swisohen a positive photographic source 204 and a negative potential source 206 swlsohenfssohsltsten Potentloaeter 202 stsht. When the sole surface 210 is in the upright position, a capacitor becomes over 194 the line I96 a ttillvolt-OlelohetroB-Vorspannuag imprinted.

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The Olelohstron output signal appearing on line 196 is fed to a DC amplifier 210 which has an NPN transformer 212. The switch 214 of the Trensist or β 212 is grounded via a resistor 216, and the collector 218 is connected to a positive potential source via a resistor 220 and a switch 222. The oleochemical signal on line 196 is applied to base 226 to control the conductivity of transistor 212. m

The switch 222 has a normally open contact 230, a potentiometer 232 is connected to a variable potential source, and a normally closed contact 234. Bin second normally closed contact 236 and a second normally open contact 238 are provided, \ m 212 to complete the Auegangskreis de "transistor. Is check the Sohalter 222 in the illustrated position, the automatic circuit is interrupted to control the Sohlnespannung, and thus a controllable by band Sehaliftng is formed to control the "Schlraapannung. Am Bedienungseana can then move the slide of the potentiometer 232, dievUber vm resistor 48. However, if the first leaf 242 bit of the Arbeltkontakt 230 and the second leaf 244 of the Arbeltkontakt 238 are in contact, the output of the transistor 212 is on the line 246 old of the

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Line 102 in connection, and the lollefctorapension becomes is applied to collector 218 via line 248. on this catfish becomes the bed-grass tension of the dysentery · 10 in dependence sludged from dea equality potential, its OrOBe depends on the peak Vldeolnf omatlonaalgnal that is derived from the output electrode of the tube 10.

As can also be seen from the preceding, any arbitrary composite signal that an oil coaponent can produce Layered Weehselstromkoaponente and a tent long one has pure DC component by applying a peak voltage detector to the gate 84 to detect a Output signal au generate that alone the Weohaelatroalnforaatlonsantell of the signal, and swar independently of sudden changes in the proportion of olelohstroa, which go through the well-known oilatrora blocklera attitudes can. The gate 84 can be designed so that it on any part of the xusaaeengeeetζten signals, that one would like to ellipse, sprayed on. In the spesletl the system described, the clock pulse is sampled to UM to generate an output signal for output 84.

Reference is now made to Flg. 4, in another Execution bracket of the invention is shown, since In of the same catfish win those in connection with the figures 1

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and Fig. 3 operates. The stirrer 10 generates again an indication of the exposure of layer 14, and the output signal resulting therefrom is passed through the capacitor 50 and a resistor 250 derived. The output signal is fed to the video amplifier and an output amplifier 252. The weighted video signal becomes also through a resistor 256 and a capacitor 258 of the Oatter 84 supplied. f

In dea In Flg. 4 shown embodiment the gate 84 consists of four diodes 260, 262, 264 and 266, which over the VersohlOaselungsaohaltung 90 and two in opposite directions connected diodes 270, 272 to the clock pulse * control loop 40 are attached.

The spanking fixture 90 consists of a phase plate, alt «Ines transistor 276, the base 278 of which is connected to the Taktlapuls-Stsftersolialtung 40 via a line 280 1st. The positive output of the phase switch 90 is passed through a capacitor 284, and the negative output signal of the phase table 90 through a capacitor 286. The positive pulse 288 is applied to the diode 270 and the negative pulse 290 is applied to the diode 272 is applied, us the diode 270 or 272 during the Taktispulainvalls to pretension.

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In operation of the Oatters '84 and the spanking arrangement 90, the presence of the pulse 288 places the junction point 294 at a certain voltage, which by means of the voltage of the pulse 288, and the presence of the pulse 288 places the junction point at a certain negative voltage · Dl · depends on the amplitude of the pulse 290. In this way, the Oetter ρ 84 is completely blocked, and the video signal cannot pass from the Blnganga antenna 298 to the Ausgengskleeae 300.

During the period in which the clock pulse is not present, diode 270 is biased due to the voltage at 302, and likewise diode 272 is biased due to the voltage at 304. If the diodes' are rieder biased lKfit the Oatter 80, the vo "270 and 272 Vldeoveretlrker 60 KOA * video calling signal duroh. In this way, the clock pulse component is eliminated from the signal passing through the Oetter 84, which removes the oil from the common Vldao # ignai su.

During the period of time «iodine dl · diodes 264 and 2f6 old of a 12 volt Olelulia11 iMpi 1 tentlalquelle awlsohen den Kleeeen 310 and 312 la 8erle gesohaltei ;. Of the

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Current flowing into diodes 264, 266 also flows through the current-limiting resistors 314, 316. The diodes 260 and 262 are connected in the same way between the terminals 310, 312 in order to flow a current dui-oh to generate them. A second current component flows through each of the diodes 260 to 266 due to their presence of the video amplifier signal. For example, the Diodes 264 and 26o a current flowing between the points ^

298 and 300 and the load resistor 320 flows.

The video signal also flows through the branch with the Diodes 262 and 266 to the load resistance to the whole Video information suitable to supply the load resistor 320, while the bias signal is split off from the phaser 90 will. It should be noted that the video signal is reversed through certain diodes of the diodes 260 to 266 Direction seems to flow. However, the voltages at terminals 310 and 312 are sufficiently high to forward bias all diodes 260 through 266, thereby enabling the modulation of the current that flows in the Vorwürtsrichtung.

The output of the qatter is via a capacitor 328 nit tine «Weohaeletroeveretarker 326 capacitively coupled.

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The Wtchael current amplifier consists of a number too NPN Tranalstoren 330, 332 and 334. The coupling capacitors elneohlleSlloh of capacitor 328 and the capacitors 340 and 342 are of relatively small capacity, ία (Ui Nicderirequenzannachweise de Weohselatroaverstlrkers su dinpfen, since with this type of coupling

e.
If there is a tendency to pay attention to the sequence of events.

Between de * Knitter and the base of transistor 330 1st a variable capacitor 344 is arranged to control the frequency of the amplifier 330 changed to thereby the dissolution of the systems su best inside.

Deals control to a light area of width • ine «1/10 a scan line addresses, the upper frequency should dss TerstXrkers in the QrCisuuydyuiig from approx 10 as a whole, or around 150 Kllozrklen pro flcfcuuds ssln, wean sin 585 horizontal cell systsn is used. These conditions would change for other Abtsstgsssnvlndlgksltsn, and the OrVIs dss perceivable bright area would be through the special Use of the srstene determined. Dsr output of the alternator a split split detector 350 is fed to the 4s described in connection with fl. 3 Peak voltage detector. Auterden 1st one epensiona control 352 provided as in connection nlt Fig. 3 has been prepared.

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The output of the Spltzenapensionedetektora becomes one Qleichatromverctärker 354 supplied to the HPN Traneietor 356 owns. The collector 36O dea Traneietore 346 is connected to a circuit 362, the la structure identical to the In the Pig. 3 described 1st « The Trane is tor 356 contains the collector 3 *> 0 and one Baaie 362 is available to suitable preliminary plans variable resistors attached. De; - Output dee Transietore 356 is through the circuit 362 (as described in connection with FIG. 3) and the output resulting therefrom becomes Via a resistor 48 is fed to the circuit for controlling the voltage of the sun.

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Claims (1)

* 176214 « Diamond Power Specialty
Corporation U.S. Route 22, East Lancaster, Ohi o / USA Munich, April 17, 1968 Lawyer File M-32 * Claims / / / Method for eliminating the conceptual component "Ines also an information component, an outflow component and other components of the most combined signals by means of an electrical hold, whereby the signal contains the information component and the communication component and at other times neither of these two components , that the signal of the electrical circuit ends at the time ₉ in which the signal contains the information component and the discharge component, and that the operation component is eliminated, while the signal is only detected during this period. 2. The method according to claim 1, dadureh gekennselehnet, daA the signal of the electrical maintenance via a weehselstroa-Xoppelkrels is suggested. 009823/0590 bad original 1762 UQ 5. The method according to claim 1 or 2, characterized daduroh, d * β the signal is fed to a gate that only has In the tent is opened, in which the signal is the information component and the Qeräiuschkoeponente contains. 4. The method according to any one of the preceding claims., In to which the information component is a changeover signal, characterized in that the information component of the Signals based on a tip-to-3pits approach is detected. 5. The method according to claim 4, characterized in that a control signal is generated from the derived signal which is used to create the compound Modiflsleren signal. 6. The method according to any one of the preceding claims, characterized by its application sur control of the screen tension of a Vidlkonruhre, whereby the composite Signal that from the Vldikonrdiu * · delivered Signal is and the information e «* on * nte of the videolnformatlofi, the OerKusehkOBponente de «Dunkelatroe and the other Xosiponenten correspond to the clocksqmleen. 003823/0590 7 · The method according to claim 6, characterized in that the control signal derived from the composite signal is converted into an Olelohetrcmslgnal whose Orö3e of the from Spit see to 3pitze ganaaaanen amplitude depends on the video format signal. 8. The method according to Anepruoh 7 * characterized in that the same Strcaalgnal is applied to the base of the vidicon tube so that 6Mt Vldoolnformatlonaalgnal remains constant with different scene exposure. 9. Apparatus sub carrying out the method according to one of the preceding claims, characterized by a flashing (60) that the "tiina-ansjinUte signal" is at least in the tent "in that the signal contains the inference component and the output component of the apparatus supplies, and a · Binrlohtuoe (100,200) do elimination of the OerMuechlcoaponente, old & a # v linrlohtung (84), the daa suaaaaengeetste signal only wobbles 'registered this time. I. 10. Performing naoh Anapruoh 9 · marked duroh ela Ostter (84) a · inelight (6o). that of the ztiaiaatngt • etched signal daa gate la dependent on the operating state dea dattera feeds, and a flash 009823 / 0S90 bathroom original 1762UQ, The gate opens only in the tent, in \ the signal tionskoaponente the Informs and contains the OeräuaohX component. \ .M. Execution according to claim 9 or 10, in which the information component includes a signal current signal, characterized by a detector (186) summed up
the information coefficient on the basis of a peak xu peak measurement. 12. The device according to claim 11, characterized by a linear device (210,354) sua generating a "control signal" on the registered signal and a device (48) which uses the control signal to generate the additional
Signal modified. · Device according to one) of the Anaprüobe * 9 - 12, approved
By using it, it rewards * Controlling the tension of a vidicon drift. 14. Device according to Anapruoh \ J>, approved by an Ilnrlohtung (1Θ6) to generate an "Olelohatrr-Ignils, that the amplitude of the information component changes as a function of the tone peak to peak measured. 009823/0590 1762U0 if Vorriohtun * naoh claim 14, kemselohnet by tin "!!" direction (48), which the QleletMtrcMlfftal on the bottom of the Vidlkonri5hr · «uftyhrt, the world d« · ZnfonMtloiMisiyuil remains with underdlloher Srenenbellohtun «kcnstantun. 009823/0690 BATH ORIGINAL Blank page