DE1537275A1 - Screens for electron beam tubes for color display - Google Patents

Description

PHK. 2035 dJo / flat share. '

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Applicant: _N γ ^ ₁₁ -. p

File ^ * _mSm , 2035

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"Screens for cathode ray tubes for color display"

The invention relates to a method for producing Screens for cathode ray tubes for color display, in which a light source for the optical projection of a pattern of openings in a mask on a layer applied to a window a phosphor and a photosensitive varnish is used and in another manufacture! lungs level another on the Window attached layer by a second light source through the the same mask and any further layer are exposed again through the same mask by a further light source, and screen made by this process,

A cathode ray tube is used, for example, by a color television display tube formed »but also by a tube attached to a Control panel is connected, and in this combination sum Ent-

• 909850/0440 - - - «

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throwing color swatches is used. \

, Sin «cathode ray tube for color display has b · -

* ■

kanntlioh El «ktron« netxahl «r» «ug * reyete» «ur achievement of a.B. three electron beams on their electrons along each other separate paths through the openings in a mask to the umbrella migrate to the so-called basic colors, mostly the colors red »green and blue to stimulate the revolted »For this purpose is the umbrella mostly with a large number of so-called light substance points provided, a certain number of which contain a phosphor, which emits light in one of the basic colors (e.g. QrQn) upon electron impact. Containing other fluorescent spots on the screen a phosphor that emits light in one of the electron impacts emits other basic colors (e.g. red). A third group of fluorescent dots can e.g. contain a blue luminescent substance » The number of different phosphor points and the number of electron beams however, it does not necessarily have to be three. In the case of cathode ray tubes for special purposes, one could use these numbers E.g. choose two or more than three.

The screen usually contains a very large number of The so-called "triples" group of light-emitting substances. A triple consists of several Leuohtstoffpunfeten different compositions.

Each electron beam scans (through the mask only the fluorescent dots of the same composition and thus the same color. Change the relationship between The intensities represented by electron beams can have different colors be made visible on the screen.

The term "window" should be understood to mean the screen that is not yet finished be., 909850/0440

-3- PHN. 2035

Ee is known to apply the fluorescent dots mentioned by a method on the shirt in which a layer applied to the window, with a phosphor and a photo-erapfindliehen Laok, is exposed through the mask (color selection mask) by light rays that the screen at the Hit points at which the electrons (a certain electron beam) hit the screen. The exposure then sticks the phosphor to the screen at these points. In a subsequent production stage, a layer with a different phosphor and again with a photo-sensitive varnish is applied to the window. This new layer is then exposed at the points and the new Leuhtetoff dots are thus glued to the points where the electrons of a wide electron beam will later strike. However, these fluorescent points do not lie in the same places as the fluorescent points attached first. If necessary, this process can be repeated for a third layer and for further layers.

The openings in the mask are round, square, elongated or be designed differently..The one used in the manufacture Special mask is mostly also used in the finished product used, but in special cases this is not necessary.

The light sources used for exposure are e.g. gas discharge lamps, e.g. high pressure silver vapor charge blanipen, that emit ultraviolet light · One advantage of these lamps is that high light intensity, so that the exposure time of a layer e.g.

20-850 / 0440 ^ D ORK ^ NAL

-4- FHN. 2035

no longer needs to be a quarter of an hour *

A disadvantage of the known method of the aforementioned type is that the light sources used for exposure are not constant Have brightness because these light sources after prolonged use almost always show a decrease in brightness. Furthermore, fluctuations in the supply voltage of the lamp bring about changes in brightness.

^ The mentioned changes in brightness of the light source used for exposure also have an adverse effect because the brightness of the light source is one of the factors that influence the size of the fluorescent dots to be attached to the window. If the Leuohtetoff dots are too large, they can overlap each other with differently composed phosphor dots and if the phosphor dots are too small, the color in question does not appear as well on the final screen in relation to the other basic colors ₍

These are fluorescent dots of very small ab-

"measurement, e.g. with a diameter of 40 ° micron with a tolerance, of e.g. 2Q micron, already with a change in brightness of the light source a few percent showed that this tolerance was the The fluorescent dot size was exceeded (while the other Factors such as the composition of the phosphor, exposure time, etc. were kept constant).

It is known that the final size of a luminescent point is also dependent on the composition of the layer ιγΛ, that is, on the luminescent substance, under otherwise identical conditions. the same light source results in the rest of the same

909850/0440 - _ _

-5- PHN. 2035

Conditions a different QrSsae of the "red" than the "blue" fluorescent points. But all fluorescent dots have to be on one screen and also the fluorescent dots of various screens approximate the have the same diameter.

Attempts have been made to reduce the aforementioned influences on the fluorescent substance- Punktgrbsse through an adjustment, namely a continuous adjustment, to compensate for the exposure time. Such an adjustment could be made very difficult to perform if the adjustment is to be accurate. So is e.g. when keeping the so-called light dose constant (a constant Product of the intensity of the light source and the exposure time of the Layer) the desired result, i.e. a constant luminous point size, generally not achievable, which is known. A satisfactory one Adjustment would therefore require a very intricate control mechanism for the exposure time. ■

The method with the constant light doais could nevertheless be carried out by the light source (s) only for manufacture a limited number of screens is (are) used. Included the exposure time is adjusted to the reduced brightness of the light source adjusted, but the brightness of the light source only drops in the hatred so that with the longest exposure time still Lta-chtatof for points with a within the tolerance limit Οϊ-οβκθ can be produced. This procedure has the ilaohteil, that the light sources often have to be replaced by new ones. Will different light sources (e.g. on different lighting tables) are used to expose the different layers (with fluorescent material), but this method is also disadvantageous for reasons of production. On -learning exposure tiaoh with the "'fastest" fluorescent substance on the screen

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For example, a new light source can just be attached, bo that the exposure time at the dleaer place is short int ala on the exposure table rait the "sluggish" phosphor, aii which eg an older light source is available. As a result, the exposure layer for the "fast" luminescent layer is then not fully used. If an attempt is made to replace all the light sources with new ones at the same time, there are still disadvantages that affect the production process because the initial brightnesses of the light sources can differ. Furthermore, the brightness of a light source can decrease faster than that of another light jellyfish of the same type.

The invention aims to remedy the disadvantages mentioned or at least reduce it.

The ancestors according to the invention for Hors tellung of üohirroen for cathode ray tubes for color image reproduction of the aforementioned Kind is characterized by the fact that each light source also has a separate light source to a light-sensitive clan attached to this light source a control system projects light from a controllable element in the supply circuit of this light source, there is a decrease the amount of light at the light-sensitive element is an increase the energy delivered to the light source in such a way that the Originally set exposure of the clear element and thus the originally set brightness of the light source can be reached again, and that time during each Light source oine sohioht exposed, at least "85 ^ and at most II5?" the mean exposure time of a layer is kjinn by the method according to the invention. a qualitative

909850/0440 ^ßAü

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good product, albo with luminous dots, practiaoh constant gross, can be obtained because the brightness of the light source is independent of the Hours of operation of the light source is, while besides, individual Differences between the properties of the Lami> eri used one after the other on a lease can be eliminated. The Beliohtt-ngsaeit on an exposure table then becomes constant at a certain level eu holding value is set.

Except for a qualitative advantage, this yields constant Exposure time nooh a technical production advantage. the Exposure time of a screen by one of the light sources is then namlioh known exactly. Furthermore, it is advantageous that the exposure times of the different Titjohe are better made equal to one another can be in which a reasonable relationship between the brightness of the light sources of the various exposure tables is stabled. There are then no stoppages during production, so that production is smoother.

Of course, a Eineteliur.c would be, with lor the 3elichtstische a production B series switchgear from Beliohtuneistisohen all have the same exposure time, theoretically the most advantageous, but it should be noted that when checking between two Defective screens can be rejected, which makes the number of screens different on each exposure table can be. There may also be a slight "difference" between the exposure times the tables are desirable, both at the exposure table the "sons of Ils ton" luminescent layer old? also at the table the "carried" luminous layer the ~. Possibilities of the Regolsyetems for Keeping constant "-to use the brightness of the light source as far as possible.

90? 8δ0 / 0440. · '"^ ~ *

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-8- PHN. 2035

In practice shows calibration _f that a deviation of about 15 $ average exposure time (Kittel value of Tieohe production grater in question) gives good results.

Another advantage of the method according to the invention is that each light source can be used for a significantly longer period of time since the duration of use no longer depends on the tolerance limit Light point size dependent eats.

This can be done in such a way that the current strength of a on an exposure tisoh newly admitted light source (the initial est amperage) is set to a considerably lower value than the amperage prescribed for the light source and by ■ it is ensured that the higher amperage (with older lamps) does not exceed the prescribed / value or does not just exceed it.

In a special process in which each light source is in is switched on and off according to a certain bythm, is the current intensity in operation, on average higher than the prescribed amperage of these light sources. · "

The latter method has the advantage that the average brightness of each light source (in operation) is measured, which means that the exposure times can be shortened. This means faster production and, what is also important, a shorter stay. The length of stay is understood to be the period during which a Window completely covered with a layer of a fluorescent material and a photo-sensitive lacquer, so wipe the second time Coment of the application of this layer and the dee WegspOlene. The '

triti; often a reaction that ale 90985Ö / OÜ40

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ORIGINAL

-9- HDT. 2035

referred to as. During this roaction, particles of the relevant stick adhere Layer on the window without these particles being exposed. this is disadvantageous as there is a color shift in the finished product brings with it. The shorter the stay, the less it is the dark reaction and the smaller the color shift. The clarification that can be achieved at this point. the ^ elichtiaigszeit made possible AltiO also a reduction in the length of stay.

Pie increase in current strength above the prescribed value is very questionable for safety reasons, as the light sources only wehrei.d relatively short no (precisely known) periods in operation aind and then switched off while it was only being exposed of the next screen must be switched on again.

The invention is carried out in the case of Gpiol on the basis of the Drawing explained in more detail «Show it

Fig. 1 partly a view and partly a section through an exposure table with a color screen for carrying out the process according to the invention »

Fig. 2 is an electrical circuit diagram of the exposure actifrohes shown in Fig. 1 »

In Fig. 1, 1 denotes a completely closed container made of metal, about 1 meter tall. A cover plate 2 with an opening J is provided on the upper side. On the outer side of the end plate 2 there is a flange 4 running in a ring around the opening 3 with a hat 5 for receiving one. Fens gate 6, which oputely form the screen of a color reproduction tube. The side of the FenaterB 6 facing the opening 3 is covered with a layer (not shown) with a luminescent material and a photo-sensitive layer

90985070440

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153727b

-10- ■ pun. 2035

Laok provided. The groove 5 enables the window to be correctly centered in relation to the opening 3 and thus a correct adjustment of the window in relation to a high-pressure vapor discharge lamp 7 (900 watts) fixed in the container 1 ). The light from this lamp 7 falls through a small opening 0 in a housing y and through openings 10, IC, 10 ", etc. of a color selection mask 11 attached to the window onto the window 6. Between the lamp 7 and the mask 11 can still lens or similar optical Mttel be provided, of course, to change the course or the intensity of the light beams to change the Lumpe. 7 These means are not shown in this AusfUhrui.gsbeispiel Under the end plate 2 is a photo-elektri3che cell 1 2. on a support]]> arranged. the cell 12 also receives light from the lamp 7 · 3 course of the light rays in the container 1 iat with dashed lines Boheinatisch indicated · Bezugaziffer I4 denotes a board with electrical He3ügerUten and 15 denotes a control box with a pressure Taut mechanism. the lamp 7, <iie cell 12 », the boiler devices of the board 14 and the switch box 15 are provided with electrical connection wires, which are referenced in FIG ciphers are designated which correspond to those of the further figure,

The wiring shown in Fig. 2 and those shown electrical elements may be borrowed in a zv: sentence, housed Kaaton, not shown, which is attached to the in Fig. 1 dargeetell th container 1 is attached. In order to make the comparison with Fig. 1 > ■ zu erleiotitom, the circuit diagram of the Pig, 2 is reproduced in such a way, ' ■ that the lamp 7 * -nd the cell i2 opposite each other are the same Assume position as in Fig. 1.

t 909850 / 044Ö · ^η4 - - ^{; p} bath "^

153727b

-11- PHN. 2035

In Pig. 2 denote 20 and 21 connection terminals for a Supply network of e.g. 220 volts, 50 Hz. The supply voltage is above a bridge * nm * obanimue 22 in the switch box I5 (see Pig. 1) and from the terminal 20 of the primary winding of an autotransfoi mators 23 supplied. Via an adjustable tap 24 on the On the secondary side of the autotransformer 23, the current is not one adjustable transformer 25 with a translation ratio 1 t 5 supplied. The secondary winding 26 of the transformer 25 speiet the series connection of the lamp 7 and. a Stabilitderungs-8pule 27. The secondary voltage of the autotransformer 23 is s.B. highest · 260 volts.

A servomechanism 28 is also connected to terminals 20 and 21. This mechanism contains an amplifier part and a motor part 30. The individual parts of the amplifier are not shown. The motor is mechanically connected to a rotor (the adjustable tap 24) of the autotransformer 23. (See dashed line in Pig. 2) By rectifying the feed wheel current and using, for example, Zener diodes, a constant current of 1 mA is generated in the amplifier 29 equipped with transistors, for example. In this way, a reference voltage (adjustable by tapping the resistor 31) is generated over the right part of the resistor 31, which reference voltage can be read by a measuring mechanism 32. The voltage across the cell 12 exposed by the lamp 7, which can be read by the measuring mechanism 33, is also effective across a resistor 34. The connection
to a "terminal

B'D ORIGINAL

153727b

-12- PHR. 2035

The measuring elements 32 and the resistor 31 are connected to a terminal 36 Amplifier 29 connected. Terminals 35 and .36 of the amplifier 29 thus lead the vector sum of the divisible reference voltage (Measwerk 32) and the photocell voltage (Messwerk 33) The amplifier 29 is set so that the motor is sioh always turns when the voltage is between 35 and · 36 from full is different. Is the photocell voltage in relation to the

^ Reference voltage too low (brightness of the light source too low) so becomes duroh the rotation of the motor of the tap point 24 of the autotransformat ore 23 the effective number of secondary windings this Auto transformer 23 enlarge. As a result, the trans, formator 25 more voltage, whereby the lamp 7 'because its burning voltage remains approximately the same, carries a higher current. this thus brings a greater amount of light to the photocell 12 itself and therefore a higher tension over 33 »thereby creating the equilibrium between photocell voltage and reference voltage is restored. ■

"The push button mechanism in box 22 consists of one

Shift rail 37 connected to a plate 39 by a tension spring 38. In the relaxed state of the tension spring 38 the contact is open . In the closed state of the contact there is an opening 40 in the rail 37 in front of a transverse pin 41 which is connected to a plate 42 by a tension spring. A timer 43 is located at the end of the pin 41. The actual push button 44 is attached to the end of the rail 37 remote from the electrical contacts. If the push button 44 is pressed in, the electrical contact is set so that the illumination

90 3 850/0 440

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table and the servo mechanism can be made effective. As soon as the Contact is closed, the spring of the pin 41 presses a part this pin 41 into the opening 40 of the rail 37, so that after releasing the push button 44 the electrical contact is closed remain. The timer 43 is set to a specific exposure time set (e.g. 10 minutes) After this time has elapsed is, the pin 41 is loosened by the watch and the exposure of a Window 6 has ended.

~ £ in iVesswerk 45 shows the '/ erb of the' secondary voltage les Spirtranaformators 23 in. If the ad of the HesewerkeB '45 aich the highest secondary voltage (about 260 volts) of the autotransformatopö 23 approaches, the light source 7 must be replaced by a new one

When a r Voi'richtung for producing color distance must each screen 2,3 sehröhren, droi Bolic-htuxigstische according to FIGS. 1 and 2 run. On the first table a.3. the layers π with the green phosphor, on the second the exposed with the blue phosphor and .iiif the third the nit dom rotan phosphor. In the table below there is a comparison between the Heratellui ^ sstufan before and after, application of the invention.

- Tabel

BAD ORIGINAL 909 8 5070 4 AO

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PHF. 2035

- Primary voltage dee exposure time in
Transformers 2p Kminutes for Leuoht-
the light source atoff points of
400 / U _ + 10 / U- After light Fluorescent Before the He- After the Before the He- Inventionι source Punktr.ujter fimlungj "Irf indun #: findun ^ i constant
brightness
the light- No. of Brightness / ons auntie
the Haht- "elligknit height HeI-
^! source of the lightness of the
“Share light source 9.5 1 green 'Leuoht'
β toffee 8.6 to 11.4 8.5 CVl blue light
fabrics « 220 ^; - 260 7.2 to 9.6 8.5. 3 red loi-cht-
ütoffea Volts volts; 7.7 to 10.2

“Prior to the invention” is understood to mean a control in which, given a lower brightness H of the light source, a longer exposure time T divides a, riri, υ ο iaae HxT- remains constant. In the positions "before the invention" vnl "according to the invention", the gldiohan light sources ^ the same Schiraeii, the same Abneasungen etc. iusgeganjen. The "kifanga brightnesses of the light sources were at a test" original voltage of 220 volts Ie-B .Speifietranafcrmators 25 (FIG. 2) in a range from 0 to 110, the average sensitivity of these light sources "at 220 Volt Opanrung. During the lighting control (before the lighting), the Grenao was one awakening up to 90? "The brightness of the light source. Dab-ji, the tolerance of the fluorescent dot size of to n “ mentioned in the table was not exceeded. The exposure times in the column "before the invention" are calculated as follows

Shorter time - ■ Initial exposure with an initial brightness of the Lichkiuello 10jS higher than the mean jlofanga brightness (-0.9 χ mean exposure time).

9Q9850 / 0440

-15- HIN. 2035

Longest time »E & idbelichtungBzeit with a light source that has an initial brightness of 90 $ of the average brightness (■ 1.1 χ 1.1 ι average exposure time).

The mean exposure time was 9-5 minutes before the application of the invention with a maximum value of 11.4 and a minimum value of 7.0 minutes, that is to say with an interval of about 2C of the mean exposure time.

The average exposure time naoh of applying the invention was messenger namely 8 _T 7 minutes with a HÖOhatwert of 9.5 T'inuten and a Kleinetwert of 8 Jiinuten, ie with a smaller interval of about $ 10.

The brewing time of a light source was before the application of the Invention about 50 hours and after application of the invention, despite the increased tension, about 100 hours.

In a Beliohturiga procedure without any regulation Screens with the fluorescent dot size mentioned in the table only be made with a high percentage of exhaustion.

A very precise setting according to the invention, with the exposure times the 3 layers are practically the same, could can be achieved when the brightness of the light sources 1, 2 and 3 (see table) in this case with a ratio of:

can be chosen, where Cp and C, denote correction factors which necessary: because with a variable exposure time the fluorescent point size does not depend solely on the light dose is. Cp and C- are dependent on the brightness of the first light source and in this case had values between 0.85 and -1.0.

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Claims (2)

153727b -16- PHIi. 2035 PATEN TAM SPARDS t 1 · / Process for the manufacture of screens for cathode ray tubes for color image reproduction, in which a light source for the optical projection of a pattern "of openings in a mask on one on one Feneter attached layer with a fluorescent and photosensitive Lacquer is used and in a subsequent manufacturing stage another layer applied to the window "a» wide light source through the same mask and possibly another layer through another light source again through the the same mask are exposed, characterized in that each The light source also acts on a light-sensitive element of a control system associated with the light source in question projected from a controllable element in the feed circuit of the There is a light source when the amount of light is reduced causes the light-sensitive element to increase the energy supplied to the light source in such a way that the k represents exposure of the photosensitive element and thus the will ureprUnglioh set brightnesses of the light sources wiedfsr achieved and dasu the time during which each light source illuminates a layer, at least B ^ and high;. -tens 115/5 of the average exposure time of a F.chichte beträft. 2. The method according Aiu odor ^ 1, one in which each light source in a fixed Rythmufcs and off, characterized in that which is iitroractärke of the light sources in operation, on average, higher than the \ ^p orgoGchrip.bene current intensity of these light sources. 3t screen for a DlektronenatstrahlrShrö for color image reproduction 90-850 / OA Au ■ _ 15 3727b -17- FUN. 2035 However, it is made by a method according to Appearance 1 or 2. 4. Cathode ray tube for color display with a screen 9 Q 9 8 5 0/0 A4 0 BAD ORIGINAL