DE7324740U - cathode ray tube - Google Patents

Description

Cathode s trah! Tube

The innovation relates to cathode ray tubes and in particular a device for reducing the effects of inner rollover,

A cathode ray tube with an electron gun located within a sealed evacuated envelope which is formed essentially of an electrically insulating material is usually with A first coating of electrically conductive material part of its outer surface and with a second coating

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made of electrically conductive material on part of its inner surface. These coatings form a capacitor that can be used in a smoothing circuit for a high voltage supply to the tubes. This capacitor then containing a charge, wherein the inner coating is supplied with a positive voltage, while the outer fberzug is grounded during operation 0s tube. Anodes are normally kept at the same voltage as the inner coating when in service. A flashover from one of the anodes to one of the several other electrodes, even to the heater, where lower voltages are present, can occur within the beam generator.

fcas presence of resistance between the inner Cover of the piston of a cathode ray tube and the

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which reach the circuits connected to the jet generator when a flashover occurs can. However, there is a stray capacitance between the combination of the second and fourth anodes, the anodes formed in the tube and its immediate surroundings | #ird. In a tube with magnetic deflection is <l main contribution in the immediate environment to this Loyalty capacity provided by the deflection yoke. Before an overturn, this stray capacitance is increased to the full High voltage supply voltage charged. if If a flashover takes place, the charge from this stray capacitance flows unhindered into the one with the jet generator connected circuits and can if the stray capacitance is large enough to provide sufficient energy to damage the semiconductor devices. As part of the innovation it was found that 'the presence of a resistance between the inner coating and the endaiode

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This stray capacitance contributes _t depends mainly on the resistance of the physical size of the electrically conductive material in such a way. For example, it has been found that in an embodiment of a cathode ray tube with a resistor in which a conductive element is supported on the inner surface of the neck of the bulb, the mentioned stray capacitance is 20 pF. A description of this known cathode ray tube is given in British Patent 1,211,898,

The task of the innovation is therefore the creation of a cathode ray tube, in which there is a risk of damage to the external circuit through flashover within the Tube is minimized.

One innovation according to Kath. * ^L nstrahlröhre has an electron gun disposed within a sealed evacuated envelope, which is made of an electrically insulating material substantially and a first coating of an electrically conductive material on part of its outer surface having j and a second coating of an electrically conductive material on part of its inner surface, which conductive coatings form a capacitor which is electrically connected to an electrode of the electron gun through a resistor arranged in the latter.

Preferably the resistor is formed by a conductive element carried by a rigid element wirdg which consists of an electrically insulating material.

In a preferred embodiment, the conductive element is in the form of a helix made of resistance material, while the rigid element is a hollow cylinder made of insulating material is - where the helix?, u coaxial with the cylinder and on the inner or outer surface of the cylinder is arranged.

A preferred embodiment of the New in connection with the accompanying drawing described in more detail, namely show:

1 is a view of a cathode ray tube according to the invention in longitudinal section and

FIG. 2 is an enlarged view in longitudinal section of part of the cathode ray tube shown in FIG. 1 Scale.

1 shows a cathode ray tube 10 with an electron beam generator 11 which is arranged within a sealed evacuated piston 12 which is essentially made of an electrically insulating material and has a first coating 13 of electrically conductive material on part of its outer surface, and a second coating 14 of electrically conductive material on part of its inner surface. The coatings 13 and m form a capacitor which is electrically connected to an electrode, which is the end anode 15 of the beam generator 11, through a resistor 16 built into the latter _e

The electron gun has a hot cathode 17, which is arranged over a heater, a modulation elec-

trode 18 and a first, a second and a third anode 19, 20 and 21, of which the second anode 20 directly is connected to the end anode 15.

In operation, a modulation signal circuit is connected so that that a modulation signal is applied between the modulation electrode 18 and the cathode 17, wherein the modulation signal circuit of the cathode 17 is a Supplies voltage which is varied to change the intensity of the electron beam passing through the cathode 17 is radiated while the electrode 18 is kept at a constant bias. Furthermore, the Anodes 19, 20 and 21 are connected to supply circuits which supply voltages that make these anodes together with the end anode 15 allow the electron beam to be formed and focused to a point on the screen. In addition, a device is provided for deflecting the beam to the desired locations, which The device is preferably in the form of electromagnetic deflection coils arranged outside the piston 12 are.

The first coating 13 on the piston 12 consists of one Layer of conductive graphite and extends over substantially the entire curved surface of the funnel part 2 2 of the piston 12, which ends at its wider end with a substantially flat front plate 23, the a delimitation of the coating 13 lies in a plane parallel to the front plate 23. A small part of the funnel part 22 of the piston 12 is formed by an electrically conductive transition 24, between which and the Coating 13 is left a gap so that they are electrically isolated from each other.

The transition part 24 has electrical contact with a first part 25 of the second coating IU, which part 25 has the form of a layer of conductive graphite, while a second part 26 of the coating 14 is in the form of an aluminum layer, the electrical connection with the first part 25 at a common boundary 27 which lies in a plane parallel to the front panel 2 3. The inner surface of the front plate 23 is coated with a layer of an electroluminescent material, on which a part of the second part 26 of the over-eye 14 rests. The first part 25 of the coating 14 extends from the common boundary 27 to the narrower end of the funnel part 22 of the piston 12 and somewhat into a cylindrical neck 29 ₉ which forms the remaining part of the piston 12, the part 25 in the neck 29 at a boundary 30 ends, which is in a plane parallel to the front panel 2 3 and closer to the front panel than the resistor

Details of the resistor 16 and the manner in which it is incorporated into the piston 12 are shown in FIG Fig. 2 shown.

The resistor 16 is formed by a conductive element 31 carried by a rigid element 32, which consists of an electrically insulating material, for example glass. The conductive element 31 has the shape of a helix aas resistance material, which contains, for example, graphite as the main component, while the rigid element 32 is a hollow cylinder, the helix coaxial with the cylinder and on the inner surface of the latter is arranged. A protective layer 33 made of chromium oxide lies on the conductive element 31, but can be omitted.

Although the element 31 on the inner surface of the element

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arranged is shown »it can be on the outer surface of element 32 with a corresponding rearrangement of the electrical contacts as described below will be provided.

That end of the element 31 which is closer to the part 25 of the cover 14 is associated therewith by a number Spring contacts 34 ·, an outwardly directed flange 35 of a flanged metallic element 36 and a further number of feather bags 37 electrically connected the, wherein the contacts 34 and 37 are welded to the flange 35, while their free ends make electrical contact with the mentioned end of the element 31 and the part 25 of the cover 14, as shown in FIG. That conductive element 31 ends at each end with a short piece 31 "or 31" of graphite of low resistance, which is arranged around the inner circumference of the rigid member 32.

The spring contacts 34 make electrical and physical contact with the piece 31 ».

The flanged member 36 is formed with an inwardly directed flange 38 that is circular Limited opening through which the electron beam passes during operation.

The other end of the element 31 is connected to the end anode Ii electrically connected by a number of spring contacts 39, which are connected to an outwardly directed flange 40 of the Anode 15 are welded. The inner coating 14 is therefore electrically connected to the anode 15 through the resistor 16. The spring contacts 39 have electrical and physical

physical contact with the piece 31 ".

The pieces 31 'and 31''can optionally be omitted and the spring contacts 3 ¹ + and 3 9 have direct contact with the ends of the element 31.

The flanged element 3G is on the flange 40 of the anode 15 by a number of insulating rods 41, for example a '· Glass attached, in which short lengths 42 of step up wire are embedded at the ends and with flanges 35 and 40 are different. In this way, the resistor 16, which is mechanically from the spring contacts 39 and 34, which keep the rigid element 32 coaxial with the path of the electron beam, into the electron gun 11 built in.

In addition, a tube getter 4 3 is in the electron gun installed and arranged on the flange 35 of the element 36.

The coatings 13 and 14 form a capacitor which can be used in a smoothing circuit for a high voltage supply for the tube 10. This capacitor contains a charge during the operation of the tube, since the transition part 2 ^l : is supplied with a positive voltage and the outer coating 13 is grounded. The anodes 15 and 20 are normally maintained at the same voltage as the inner cladding 14 during operation, but the voltage may be degraded if, as is sometimes the case, the electrical current forms a high emission current. The beam is partially intercepted by one or both of the anodes 15 and 20, which electrodes are electrically connected to the transition portion 24 only through the resistor 16.

A rollover from one of the anoces 15 and 20 to an ocfar

several of the other electrodes, even to the heater, which have lower voltages, can take place within the electIO " ^s nsifpsh le T ¹ Z en ge T ¹ S; If such a flashover occurs, the resistance between that by the coatings 13 and 14 formed capacitor and one or more of the electrodes 18-21 is reduced, but the value of the resistor 16 is chosen so that it also

under these circumstances it is sufficient to increase the current flowing from the mentioned capacitor to a value limit, by which none of the supply circuits or the modulation circuit is damaged, the parts such as May contain solid-state components, which are vulnerable to damage due to high current values and with the electrodes 18-21 are connected during operation. For most cases, the one formed by element 31 is intended resistance should be at least 1000 ohms.

In another embodiment, the conductive element has the form of a coherent film resting on an insulating base, and then another Embodiment, the conductive element has the shape of a hollow cylinder made of conductive material of sufficient rigidity that it is self-supporting and thereby the Resistance forms.

The presence of a resistance between the inner coating of the envelope of a cathode ray tube and the anode of its electron gun reduces the amount of energy which can be delivered to circuits connected to the gun in the event of a flashover. However, there is a stray capacitance between the combination of the second and fourth anodes, the anodes 20 and 15 shown in FIG. 1 in the tube and their immediate surroundings. In a tube with 1

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Magnetic deflection, the main contribution in the immediate vicinity to this stray capacitance is made by the deflection yoke. Before a flashover, this stray capacitance is charged to the full voltage of the high-voltage supply, which is connected to the high-voltage ^{vehicle · 1} -binding part, which corresponds to ^{the transition part 2 1 +.} When a flashover occurs, the charge from this stray capacitance flows freely into the circuits connected to the gun , and if the stray capacitance is large enough, sufficient power can be supplied to damage the semiconductor devices. It has been found that the presence of a resistance between the inner top pull and the final anode for this stray capacitance in a manner beitjia ^ t depends mainly seen from the ¹ ^ IvS ikali size of the electrically conductive material of the resistance. For example, it has been found that in a cathode ray tube having a resistor with a conductive element which has the shape of the element but is not in accordance with the invention and the conductive element is applied to the inner surface of the neck 29 of the envelope, the stray capacitance is 20 pF , while in a cathode ray tube, which differs only in that the resistor is designed and arranged in the manner described above in connection with the resistor 16, the mentioned stray capacitance is 3 pF.

Protection claims;

Claims (1)

Protection a η s ρ r ü ch e: 1. Cathode ray tube with a sealed evacuated envelope consisting essentially of an electrically insulating material, an electron gun, located within the sealed evacuated envelope is arranged, a first coating of electrically conductive material on part of the outer surface of the piston, a second coating of electrically conductive material on part of the inner surface of the piston, which conductive coatings form a capacitor, and a resistor, which sine Elek = Electrode of the electron gun electrically connects to the capacitor, characterized in that the resistor (16) is built into the electron gun (11). Cathode ray tube according to Claim 1, characterized in that the resistor is formed by a conductive element (31) is formed, which forms the resistance value of resistor (16) and is formed by a rigid element & nx (32) made of an electrically insulating material, 3. Cathode ray tube according to claim 2, characterized in that the conductive element (31) has the shape of a Has a helix made of resistance material, the rigid element (32) is a hollow cylinder made of insulating material, the change to the cylinder equiaxed and attached to the Inner surface of the latter is arranged. Cathode ray tube according to Claim 3, characterized in that that the helix (31) essentially from a protective layer of chromium oxide (33) with AusTiahme to the Places is covered at which the coil is electrically connected to the capacitor and the mentioned electrode is. 5. Cathode ray tube according to claim 4, characterized in that the helix (31) with the capacitor and with the mentioned electrode by a number of spring contacts (34, 37, 39) is electrically connected.