EP0142200B1 - Voltage control device for cathode-ray tube electrodes - Google Patents

Voltage control device for cathode-ray tube electrodes Download PDF

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Publication number
EP0142200B1
EP0142200B1 EP84201569A EP84201569A EP0142200B1 EP 0142200 B1 EP0142200 B1 EP 0142200B1 EP 84201569 A EP84201569 A EP 84201569A EP 84201569 A EP84201569 A EP 84201569A EP 0142200 B1 EP0142200 B1 EP 0142200B1
Authority
EP
European Patent Office
Prior art keywords
pipe
cable
resistive layer
layer
winding
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
EP84201569A
Other languages
German (de)
French (fr)
Other versions
EP0142200A2 (en
EP0142200A3 (en
Inventor
Francis Societe Civile S.P.I.D. Faye
Georges Societe Civile S.P.I.D. Prigent
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
LA RADIOTECHNIQUE PORTENSEIGNE
Koninklijke Philips NV
Original Assignee
RADIOTECH IND COMMERC SA
LA RADIOTECHNIQUE PORTENSEIGNE
Philips Gloeilampenfabrieken NV
Koninklijke Philips Electronics NV
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from FR8317650A external-priority patent/FR2554635B1/en
Priority claimed from FR8407954A external-priority patent/FR2565025B1/en
Application filed by RADIOTECH IND COMMERC SA, LA RADIOTECHNIQUE PORTENSEIGNE, Philips Gloeilampenfabrieken NV, Koninklijke Philips Electronics NV filed Critical RADIOTECH IND COMMERC SA
Publication of EP0142200A2 publication Critical patent/EP0142200A2/en
Publication of EP0142200A3 publication Critical patent/EP0142200A3/en
Application granted granted Critical
Publication of EP0142200B1 publication Critical patent/EP0142200B1/en
Expired legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01CRESISTORS
    • H01C10/00Adjustable resistors
    • H01C10/30Adjustable resistors the contact sliding along resistive element
    • H01C10/38Adjustable resistors the contact sliding along resistive element the contact moving along a straight path
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F38/00Adaptations of transformers or inductances for specific applications or functions
    • H01F38/42Flyback transformers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F38/00Adaptations of transformers or inductances for specific applications or functions
    • H01F38/42Flyback transformers
    • H01F2038/423Flyback transformers with adjusting potentiometers

Definitions

  • the invention relates to an adjustable voltage generator device for supplying at least one electrode of a cathode ray tube, device comprising a transformer provided with a winding for supplying at least one voltage to at least one potentiometer on the cursor of which is collected.
  • the invention finds its main application in color television receivers.
  • a special potentiometer capable of supporting a voltage of several kilovolts across its terminals is used to supply the adjustable voltage.
  • Such a potentiometer is present for example in the catalog of the PHILIPS Company under the name "FOCUS POTENTIOMETER UNIT”.
  • Such a potentiometer is bulky, difficult to connect, and above all expensive to manufacture because of the insulation constraints required by the high voltages present.
  • the invention provides a solution to avoid the use of such a specific element, its attachment to the transformer and its connection to the voltage generator element.
  • the generating devices include a transformer provided with a winding to provide a voltage, and a hollow part called a "pipe" into which an electric cable is introduced and in which the latter is connected to the winding.
  • the device according to the invention is remarkable in that the potentiometer is produced inside the pipe, the cable directly collecting the adjustable tension therein, because inside said pipe.
  • pipe is arranged at least one resistive layer forming a potentiometer, one end of which is connected to the winding, that the electric cable is provided with means connected to its conductive core for making contact with said layer, and that the insertion of the cable into the pipe is adjustable, thereby moving the point of contact with the resistive layer.
  • the potentiometer track is constituted by means of a resistive layer placed inside the very pipe of the output of the concentration voltage, and the potentiometer cursor by means of the end of the cable. high voltage introduced into said pipe which can slide in this pipe to adjust the tension.
  • the other end of the resistive layer is advantageously connected to another point of the winding.
  • the means for making contact with the layer consist of the end of the conductive core of the cable folded over its insulating sheath.
  • the device according to the invention it is possible to provide an adjustable high voltage by using only extremely simple and inexpensive means.
  • the device according to the invention advantageously applies to the supply of the concentration voltage as well as to the bias voltage of the second grid of the cathode-ray tube, and for this purpose, its hollow part has two housings, for two cables, housings each provided with a resistive layer.
  • a high voltage television transformer is shown.
  • the latter is usually provided with several windings, or windings, providing various voltages, placed around a ferrite core 8.
  • the winding 20 which provides the focusing voltage is shown.
  • the transformer has a protruding and hollow part 10 called a "pipe", into which an electrical cable 9 is introduced and into which the latter is connected to the winding 20.
  • a resistive layer 2 is arranged, one end of which is connected by connection 7 to a point of the winding.
  • the electric cable 9 is provided with means for making contact with said layer and its insertion into the pipe is adjustable by hand or by some mechanical means which is easy to carry out.
  • FIG. 2A where the winding 20 and the resistive layer 2 are found, shows that said other end is connected by the conductor 11 to a heel resistor 23, itself connected to ground.
  • This diagram also includes rectifier diodes not described here, which can be connected in different ways, described for example in the book “The new guide to color television” at Editions CHIRON in Paris, pages 229 to 240 These diodes are generally incorporated in the molding of the winding, for example in the manner described by patent FR 2 146 419. A diode can thus be placed in series in connection 7.
  • FIG. 2B represents another possibility of connecting the potentiometer.
  • This possibility is not used in the prior art because it requires the presence of a second pipe to ensure the connection, at point 22, of the other end of the potentiometer.
  • This connection is on the other hand advantageous in the context of the invention since it makes it possible to eliminate the conductor 11 and the resistor 23.
  • the two ends of the resistive layer, located in the same pipe 10, are connected to the sockets 21, 22 of the 'winding.
  • the pipe of FIG. 3A comprises a resistive layer 2 deposited directly inside the pipe. This deposition can be carried out under plasma, this well-known technique making it possible to metallize inaccessible surfaces.
  • a conductive layer is deposited by masking the central part of the layer 2 during the deposition. The conductive pads 5, 6 allow the connection with, respectively, the connection 7 and the clip 12.
  • the pipe of FIG. 3B is provided with an internal prefabricated part 100.
  • This part has a groove 4 in which is fixed an insulating strip covered with a resistive layer.
  • FIG. 4 represents such a bar covered with the resistive layer 2 on one side, a conductive layer 1, 3 being deposited at each end. These layers are preferably deposited by screen printing in a thick layer on a ceramic substrate which has a large quantity of bars and which is then cut into unitary bars. On the end layers 1 and 3, connections 7 and 70 are fixed, the connection 70 being for example folded behind the bar. The bar is then fixed in the part 100, the connections 7, 70 passing through the holes 24, then the connections 7, 70 are connected to the winding 20 and, finally, all of the winding and the part 100 is overmolded to form a block provided with the pipe 10.
  • the cable 9 of FIG. 5A is provided at its end with a ferrule 14 welded to the central conductor 13 of the cable.
  • This tip comprises one or more stamped cutout (s) each constituting an elastic blade 25 intended to ensure good contact with the resistive layer.
  • FIG. 5B the end of the rigid central conductor 13 of the cable is folded over its insulating sheath to ensure contact with the resistive layer. This arrangement is suitable for the pipe shown in FIG.
  • the groove 4 then being deeper than the thickness of the bar, so that after fixing it in the bottom of the groove, the resistive layer remains in shrinkage with respect to the inner wall of the pipe, thus further constituting a groove into which the end 13 of the cable enters into contact with the bar, thus preventing the cable from turning around its longitudinal axis.
  • a narrow bar housed in the groove it is also possible to use a relatively wide bar, housed in a suitable recess next to the housing intended for the cable, with a slot between said recess and said housing, slot through which the conductive end of the cable, such an arrangement is represented by FIGS. 7A, B, C which will now be described.
  • the pipe seen in perspective in FIG. 7A comprises two housings for two cables 9, 29, housings each provided with a resistive layer.
  • the winding 20 provides a voltage of approximately 8 kV via a conductor 33 at one end of a resistive track 2 on which the cable 9 supplying the electrode contacts. focusing, track followed by a track 23 forming resistance-heel, and a resistive track 28 on which makes contact with cable 29 supplying the second grid of the cathode-ray tube.
  • the end, opposite to track 23, of track 28 is connected by a conductor 36 to an outlet of the transformer winding, outlet providing approximately 0.5 kV; it could also be brought back to earth via a heel resistance.
  • Figure 7B is a cross section through the pipe of Figure 7A. It shows two cables 9, 29 in two cylindrical housings, and two bars 31, 32 with which the ends 13, 30 respectively of the cables 9, 29 are in contact.
  • the bars 31, 32 are placed together in a suitable recess 27 placed between the two housings for the cables, and passages parallel to the axes of the cables make said housings communicate with said recess 27 by allowing the ends of the cables to pass 13.30.
  • a contact tip like that shown in Figure 5A could as well be used here.
  • FIG. 7C which is a perspective view in section along C of the pipe of FIG. 7A, makes it possible to perfectly understand the arrangement of the cables 9, 29, and the bars 31, 32.
  • FIG. 8a represents bars 31 and 32 seen from the side which carries the resistive tracks 2 and 28 and conductive connecting tracks 33 to 36.
  • the bars are cut from an alumina plate and the tracks are produced according to the so-called “technique”. in thick layers "by screen printing and baking.
  • Track 28 is wider than track 2, because for the same cable sliding length, it must provide a voltage variation of approximately 400 volts, while track 2 provides a variation of approximately 2 kilovolts.
  • the Resis part heel counter 23 which extends the track 28 is offset laterally so that, in the event of insufficient penetration of the cable, it is no longer in contact with the resistor, so that the second grid cannot be brought to a tension too high.
  • a clip 26 provides the electrical connection between the conductive tracks 34 and 35 of FIG. 8A, and the tracks 33 and 36 are connected to taps of the winding as explained above with reference to FIG. 9.
  • Figure 6A shows the outer end of a pipe provided with slots 15 around a cable passage.
  • the slots 15 allow tightening by constriction.
  • a plug 17 shown in Figure 6B screwed onto the thread 16 of the pipe, so as to cause tightening.
  • a ring 18 shown in Figure 6C forced into the frustoconical end of the pipe.
  • a transverse screw 19 as shown in FIG. 6D, to tighten the cable.
  • FIGS. 6A and D represent a pipe with a cable, it is obvious that the means described with reference to these figures and more particularly in FIG. 6D apply equally well to a pipe with two cables.

Description

L'invention concerne un dispositif générateur de tension réglable pour alimenter au moins une électrode d'un tube à rayons cathodiques, dispositif comportant un transformateur muni d'un enroulement pour fournir au moins une tension à au moins un potentiomètre sur le curseur duquel est recueillie une tension réglable, et d'une partie creuse dite "pipe" dans laquelle est introduit au moins un câble électrique et dans laquelle ce dernier est mis en liaison avec l'enroulement.The invention relates to an adjustable voltage generator device for supplying at least one electrode of a cathode ray tube, device comprising a transformer provided with a winding for supplying at least one voltage to at least one potentiometer on the cursor of which is collected. an adjustable tension, and of a hollow part called "pipe" in which is introduced at least one electric cable and in which the latter is put in connection with the winding.

L'invention trouve son application principale dans les récepteurs de télévision en couleur.The invention finds its main application in color television receivers.

Dans les dispositifs générateurs de tension connus, on utilise pour fournir la tension réglable un potentiomètre spécial capable de supporter une tension de plusieurs kilovolts à ses bornes. Un tel potentiomètre est présent par exemple au catalogue de la Société PHILIPS sous l'appellation "FOCUS POTENTIOMETER UNIT".In known voltage generating devices, a special potentiometer capable of supporting a voltage of several kilovolts across its terminals is used to supply the adjustable voltage. Such a potentiometer is present for example in the catalog of the PHILIPS Company under the name "FOCUS POTENTIOMETER UNIT".

Un tel potentiomètre est encombrant, délicat à connecter, et surtout coûteux à fabriquer à cause des contraintes d'isolement nécessitées par les hautes tensions présentes.Such a potentiometer is bulky, difficult to connect, and above all expensive to manufacture because of the insulation constraints required by the high voltages present.

L'invention fournit une solution pour éviter l'emploi d'un tel élément spécifique, sa fixation au transformateur et sa connexion à l'élément générateur de tension.The invention provides a solution to avoid the use of such a specific element, its attachment to the transformer and its connection to the voltage generator element.

Les dispositifs générateurs comportent un transformateur muni d'un enroulement pourfournir une tension, et d'une partie creuse dite "pipe" dans laquelle est introduit un câble électrique et dans laquelle ce dernier est mis en liaison avec l'enroulement.The generating devices include a transformer provided with a winding to provide a voltage, and a hollow part called a "pipe" into which an electric cable is introduced and in which the latter is connected to the winding.

Le dispositif selon l'invention est remarquable en ce que le potentiomètre est réalisé à l'intérieur de la pipe, le câble y recueillant directement la tension réglable, du fait qu'à l'intérieur de ladite. pipe est disposée au moins une couche résistive formant potentiomètre dont une extrémité est reliée à l'enroulement, que le câble électrique est muni de moyens connectés à son âme conductrice pour prendre contact avec ladite couche, et que l'enfoncement du câble dans la pipe est ajustable, déplaçant ainsi le point de contact avec la couche résistive.The device according to the invention is remarkable in that the potentiometer is produced inside the pipe, the cable directly collecting the adjustable tension therein, because inside said pipe. pipe is arranged at least one resistive layer forming a potentiometer, one end of which is connected to the winding, that the electric cable is provided with means connected to its conductive core for making contact with said layer, and that the insertion of the cable into the pipe is adjustable, thereby moving the point of contact with the resistive layer.

Dans le dispositif selon l'invention la piste du potentiomètre est constituée au moyen d'une couche résistive disposée à l'intérieur même de la pipe de sortie de la tension de concentration, et le curseur du potentiomètre au moyen de l'extrémité du câble haute tension introduit dans ladite pipe pouvant coulisser dans cette pipe pour régler la tension.In the device according to the invention, the potentiometer track is constituted by means of a resistive layer placed inside the very pipe of the output of the concentration voltage, and the potentiometer cursor by means of the end of the cable. high voltage introduced into said pipe which can slide in this pipe to adjust the tension.

Afin d'éviter l'emploi d'une résistance supplémentaire, l'autre extrémité de la couche résistive est avantageusement reliée à un autre point de l'enroulement.In order to avoid the use of an additional resistance, the other end of the resistive layer is advantageously connected to another point of the winding.

Avantageusement, les moyens pour prendre contact avec la couche sont constitués par l'extrémité de l'âme conductrice du câble repliée par- dessus sa gaine isolante.Advantageously, the means for making contact with the layer consist of the end of the conductive core of the cable folded over its insulating sheath.

Grâce au dispositif selon l'invention, il est possible de fournir une haute tension ajustable en mettant seulement en oeuvre des moyens extrêmement simples et peu coûteux.Thanks to the device according to the invention, it is possible to provide an adjustable high voltage by using only extremely simple and inexpensive means.

En outre le dispositif selon l'invention s'applique avantageusement à la fourniture de la tension de concentration aussi bien qu'à la tension de polarisation de la deuxième grille du tube cathodique, et à cet effet, sa partie creuse comporte deux logements, pour deux câbles, logements munis chacun d'une couche résistive.In addition, the device according to the invention advantageously applies to the supply of the concentration voltage as well as to the bias voltage of the second grid of the cathode-ray tube, and for this purpose, its hollow part has two housings, for two cables, housings each provided with a resistive layer.

La description qui va suivre, en regard des dessins annexés donnés à titre d'exemples non limitatifs, fera bien comprendre comment l'invention peut être réalisée.

  • Les figures 1A et 1B représentent une vue latérale et une coupe d'un transformateur utilisé dans l'invention.
  • Les figures 2A et 2B sont deux schémas électriques de branchement à l'enroulement.
  • Les figures 3A et 38 représentent en perspective coupée deux exemples de réalisation de la pipe selon l'invention.
  • La figure 4 représente une barrette isolante recouverte d'une couche résistive.
  • Les figures 5A et 5B représentent en perspective des moyens pour assurer le contact entre le câble et la couche résistive.
  • Les figures 6A, B, C, et D illustrent différents exemples de réalisation de moyens de blocage du câble.
  • Les figures 7A à 7C sont respectivement une vue en perspective, une coupe transversale et une coupe longitudinale d'un mode de réalisation particulier de l'invention où la partie creuse comporte deux logements.
  • Les figures 8A et 88 représentent en perspective à divers stade de fabrication, des barrettes munies de couches résistives.
  • La figure 9 est un schéma de branchement pour deux électrodes d'un tube cathodique.
The description which follows, with reference to the appended drawings given by way of nonlimiting examples, will make it clear how the invention can be implemented.
  • Figures 1A and 1B show a side view and a section of a transformer used in the invention.
  • Figures 2A and 2B are two electrical diagrams of connection to the winding.
  • Figures 3A and 38 show in perspective cut two embodiments of the pipe according to the invention.
  • FIG. 4 represents an insulating strip covered with a resistive layer.
  • FIGS. 5A and 5B show in perspective means for ensuring contact between the cable and the resistive layer.
  • Figures 6A, B, C, and D illustrate different embodiments of cable locking means.
  • Figures 7A to 7C are respectively a perspective view, a cross section and a longitudinal section of a particular embodiment of the invention where the hollow part has two housings.
  • FIGS. 8A and 88 show in perspective at various stages of manufacture, bars provided with resistive layers.
  • Figure 9 is a connection diagram for two electrodes of a cathode ray tube.

Sur la figure 1, est représenté un transformateur haute tension de télévision. Ce dernier est habituellement muni de plusieurs bobinages, ou enroulements, fournissant diverses tensions, placés autour d'un noyau de ferrite 8. L'enroulement 20 qui fournit la tension de focalisation est représenté. Le transformateur comporte une partie proéminente et creuse 10 dite "pipe", dans laquelle est introduit un câble électrique 9 et dans laquelle ce dernier est mis en liaison avec l'enroulement 20.In Figure 1, a high voltage television transformer is shown. The latter is usually provided with several windings, or windings, providing various voltages, placed around a ferrite core 8. The winding 20 which provides the focusing voltage is shown. The transformer has a protruding and hollow part 10 called a "pipe", into which an electrical cable 9 is introduced and into which the latter is connected to the winding 20.

A l'intérieur de ladite pipe 10, est disposée une couche résistive 2 dont une extrémité est reliée par la connexion 7 à un point de l'enroulement. Le câble électrique 9 est muni de moyens pour prendre contact avec ladite couche et son enfoncement dans la pipe est ajustable à la main ou grâce à quelque moyen mécanique facile à réaliser.Inside said pipe 10, a resistive layer 2 is arranged, one end of which is connected by connection 7 to a point of the winding. The electric cable 9 is provided with means for making contact with said layer and its insertion into the pipe is adjustable by hand or by some mechanical means which is easy to carry out.

L'autre extrémité de la couche résistive 2 est reliée, par exemple au moyen d'une agrafe 12, à un conducteur 11. La figure 2A, où l'on retrouve l'enroulement 20 et la couche résistive 2, montre que ladite autre extrémité est reliée par le conducteur 11 à une résistance-talon 23, elle-même reliée à la masse.The other end of the resistive layer 2 is connected, for example by means of a clip 12, to a conductor 11. FIG. 2A, where the winding 20 and the resistive layer 2 are found, shows that said other end is connected by the conductor 11 to a heel resistor 23, itself connected to ground.

Ce schéma comporte, par ailleurs, des diodes de redressement non décrites ici, qui peuvent être connectées de différentes manières, décrites par exemple dans l'ouvrage "Le nouveau guide de la télévision en couleurs" aux Editions CHIRON à Paris, pages 229 à 240. Ces diodes sont en général incorporées dans le moulage de l'enroulement, par exemple de la manière décrite par le brevet FR 2 146 419. Une diode peut ainsi être placée en série dans la connexion 7.This diagram also includes rectifier diodes not described here, which can be connected in different ways, described for example in the book "The new guide to color television" at Editions CHIRON in Paris, pages 229 to 240 These diodes are generally incorporated in the molding of the winding, for example in the manner described by patent FR 2 146 419. A diode can thus be placed in series in connection 7.

Le schéma de la figure 2B représente une autre possibilité de branchement du potentiomètre. Cette possibilité n'est pas utilisée dans l'art antérieur car elle nécessite la présence d'une deuxième pipe pour assurer le branchement, au point 22, de l'autre extrémité du potentiomètre. Ce branchement est par contre avantageux dans la cadre de l'invention car il permet de supprimer le conducteur 11 et la résistance 23. Les deux extrémités de la couche résistive, situées dans la même pipe 10, sont connectées aux prises 21, 22 de l'enroulement.The diagram in FIG. 2B represents another possibility of connecting the potentiometer. This possibility is not used in the prior art because it requires the presence of a second pipe to ensure the connection, at point 22, of the other end of the potentiometer. This connection is on the other hand advantageous in the context of the invention since it makes it possible to eliminate the conductor 11 and the resistor 23. The two ends of the resistive layer, located in the same pipe 10, are connected to the sockets 21, 22 of the 'winding.

La pipe de la figure 3A comporte une couche résistive 2 déposée directement à l'intérieur de la pipe. Ce dépôt peut être réalisé sous plasma, cette technique bien connue permettant de métalliser des surfaces peu accessibles. Sur les deux extrémités 5, 6 une couche conductrice est déposée en masquant la partie centrale de la couche 2 pendant le dépôt. Les plages conductrices 5, 6 permettent la liaison avec, respectivement, la connexion 7 et l'agrafe 12.The pipe of FIG. 3A comprises a resistive layer 2 deposited directly inside the pipe. This deposition can be carried out under plasma, this well-known technique making it possible to metallize inaccessible surfaces. On the two ends 5, 6 a conductive layer is deposited by masking the central part of the layer 2 during the deposition. The conductive pads 5, 6 allow the connection with, respectively, the connection 7 and the clip 12.

La pipe de la figure 3B est munie d'une pièce interne 100 préfabriquée. Cette pièce comporte une rainure 4 dans laquelle est fixée une barrette isolante recouverte d'une couche résistive.The pipe of FIG. 3B is provided with an internal prefabricated part 100. This part has a groove 4 in which is fixed an insulating strip covered with a resistive layer.

La figure 4 représente une telle barrette recouverte de la couche résistive 2 sur une face, une couche conductrice 1, 3 étant déposée à chaque extrémité. Ces couches sont de préférence déposées par sérigraphie en couche épaisse sur un substrat de céramique qui comporte une grande quantité de barrettes et qui est ensuite découpé en barrettes unitaires. Sur les couches d'extrémité 1 et 3, sont fixées des connexions 7 et 70, la connexion 70 étant par exemple repliée derrière la barrette. Le barrette est ensuite fixée dans la pièce 100, les connexions 7, 70 passant par les trous 24, puis les connexions 7, 70 sont reliées à l'enroulement 20 et, enfin, l'ensemble de l'enroulement et de la pièce 100 est surmoulé pour constituer un bloc muni de la pipe 10.FIG. 4 represents such a bar covered with the resistive layer 2 on one side, a conductive layer 1, 3 being deposited at each end. These layers are preferably deposited by screen printing in a thick layer on a ceramic substrate which has a large quantity of bars and which is then cut into unitary bars. On the end layers 1 and 3, connections 7 and 70 are fixed, the connection 70 being for example folded behind the bar. The bar is then fixed in the part 100, the connections 7, 70 passing through the holes 24, then the connections 7, 70 are connected to the winding 20 and, finally, all of the winding and the part 100 is overmolded to form a block provided with the pipe 10.

Le câble 9 de la figure 5A est muni à son extrémité d'un embout 14 soudé au conducteur central 13 du câble. Cet embout comporte un ou plusieurs découpage(s) embouti(s) constituant chacun une lame élastique 25 destinée à assurer un bon contact avec la couche résistive. Dans une version simplifiée représentée par la figure 5B, l'extrémité du conducteur central rigide 13 du câble est repliée par-dessus sa gaine isolante pour assurer le contact avec la couche résistive. Cette disposition est adaptée à la pipe représentée sur la figure 3B, la rainure 4 étant alors plus profonde que l'épaisseur de la barrette, de façon qu'après fixation de celle-ci dans le fond de la rainure, la couche résistive reste en retrait par rapport à la paroi intérieure de la pipe, constituant donc encore une rainure dans laquelle pénètre l'extrémité 13 du câble en contact avec la barrette, empêchant ainsi le câble de tourner autour de son axe longitudinal. Au lieu d'une barrette étroite logée dans la rainure, on peut aussi utiliser une barrette relativement large, logée dans un évidement approprié à côté du logement destiné au câble, avec un fente entre ledit évidement et ledit logement, fente par laquelle passe l'extrémité conductrice du câble, une telle disposition est représentée par les figures 7A, B, C qui vont maintenant être décrites.The cable 9 of FIG. 5A is provided at its end with a ferrule 14 welded to the central conductor 13 of the cable. This tip comprises one or more stamped cutout (s) each constituting an elastic blade 25 intended to ensure good contact with the resistive layer. In a simplified version represented by FIG. 5B, the end of the rigid central conductor 13 of the cable is folded over its insulating sheath to ensure contact with the resistive layer. This arrangement is suitable for the pipe shown in FIG. 3B, the groove 4 then being deeper than the thickness of the bar, so that after fixing it in the bottom of the groove, the resistive layer remains in shrinkage with respect to the inner wall of the pipe, thus further constituting a groove into which the end 13 of the cable enters into contact with the bar, thus preventing the cable from turning around its longitudinal axis. Instead of a narrow bar housed in the groove, it is also possible to use a relatively wide bar, housed in a suitable recess next to the housing intended for the cable, with a slot between said recess and said housing, slot through which the conductive end of the cable, such an arrangement is represented by FIGS. 7A, B, C which will now be described.

Pourfournir à la fois la tension de concentration et la tension de deuxième grille d'un tube à rayons cathodiques de télévision en couleur la pipe vue en perspective sur la figure 7A comporte deux logements pour deux câbles 9, 29, logements munis chacun d'une couche résistive.To provide both the concentration voltage and the second grid voltage of a color television cathode ray tube, the pipe seen in perspective in FIG. 7A comprises two housings for two cables 9, 29, housings each provided with a resistive layer.

Cette disposition permet de réaliser le schéma électrique représenté sur la figure 9. L'enroulement 20 fournit une tension d'environ 8 kV par un conducteur 33 à une extrémité d'une piste résistive 2 sur laquelle prend contact le câble 9 alimentant l'électrode de focalisation, piste suivie d'une piste 23 formant résistance-talon, et d'une piste résistive 28 sur laquelle prend contact de câble 29 alimentant la deuxième grille du tube cathodique. L'extrémité, opposée à la piste 23, de la piste 28 est reliée par un conducteur 36 à une prise de l'enroulement du transformateur, prise fournissant environ 0,5 kV; elle pourrait aussi être ramenée à la masse via une résistance-talon.This arrangement enables the electrical diagram shown in FIG. 9 to be produced. The winding 20 provides a voltage of approximately 8 kV via a conductor 33 at one end of a resistive track 2 on which the cable 9 supplying the electrode contacts. focusing, track followed by a track 23 forming resistance-heel, and a resistive track 28 on which makes contact with cable 29 supplying the second grid of the cathode-ray tube. The end, opposite to track 23, of track 28 is connected by a conductor 36 to an outlet of the transformer winding, outlet providing approximately 0.5 kV; it could also be brought back to earth via a heel resistance.

La figure 7B est une coupe transversale dans la pipe de la figure 7A. Elle montre deux câbles 9, 29 dans deux logements cylindriques, et deux barrettes 31, 32 avec lesquelles les extrémités respectivement 13, 30 des câbles 9, 29 sont en contact. Les barrettes 31, 32 sont placées ensemble dans un évidement 27 approprié placé entre les deux logements pour les câbles, et des passages parallèles aux axes des câbles font communiquer lesdits logements avec ledit évidement 27 en permettant le passage des extrémités de câbles 13,30. Bien entendu un embout de contact comme celui représenté figure 5A pourrait aussi bien être utilisé ici.Figure 7B is a cross section through the pipe of Figure 7A. It shows two cables 9, 29 in two cylindrical housings, and two bars 31, 32 with which the ends 13, 30 respectively of the cables 9, 29 are in contact. The bars 31, 32 are placed together in a suitable recess 27 placed between the two housings for the cables, and passages parallel to the axes of the cables make said housings communicate with said recess 27 by allowing the ends of the cables to pass 13.30. Of course a contact tip like that shown in Figure 5A could as well be used here.

La figure 7C, qui est une vue en perspective et en coupe selon C de la pipe de la figure 7A, permet de parfaitement comprendre la disposition des câbles 9, 29, et des barrettes 31, 32.FIG. 7C, which is a perspective view in section along C of the pipe of FIG. 7A, makes it possible to perfectly understand the arrangement of the cables 9, 29, and the bars 31, 32.

La figure 8a représente des barrettes 31 et 32 vues du côté qui porte les pistes résistives 2 et 28 et des pistes conductrices de raccordement 33 à 36. Les barrettes sont découpées dans une plaque d'alumine et les pistes sont réalisées selon la technique dite "en couches épaisses" par sérigraphie et cuisson.FIG. 8a represents bars 31 and 32 seen from the side which carries the resistive tracks 2 and 28 and conductive connecting tracks 33 to 36. The bars are cut from an alumina plate and the tracks are produced according to the so-called "technique". in thick layers "by screen printing and baking.

La piste 28 est plus large que la piste 2, car pour une même longueur de coulissement du câble, elle doit procurer une variation de tension d'environ 400 volts, alors que la piste 2 procure une variation d'environ 2 kilovolts. La partie de résistance-talon 23 qui prolonge la piste 28 est décalée latéralement pour que, en cas d'enfoncement insuffisant du câble, celui-ci ne soit plus en contact avec la résistance, afin que la deuxième grille ne puisse pas être portée à une tension trop élevée.Track 28 is wider than track 2, because for the same cable sliding length, it must provide a voltage variation of approximately 400 volts, while track 2 provides a variation of approximately 2 kilovolts. The Resis part heel counter 23 which extends the track 28 is offset laterally so that, in the event of insufficient penetration of the cable, it is no longer in contact with the resistor, so that the second grid cannot be brought to a tension too high.

Avant d'être placée dans la pipe 10, la plaquette 32 est retournée dos à dos contre la plaquette 31, comme l'indique la flèche 37, et on obtient alors l'ensemble de barrettes représenté par la figure 8B. Une agrafe 26 assure la liaison électrique entre les pistes conductrices 34 et 35 de la figure 8A, et les pistes 33 et 36 sont reliées à des prises de l'enroulement comme expliqué plus haut à propos de la figure 9.Before being placed in the pipe 10, the wafer 32 is turned back to back against the wafer 31, as indicated by arrow 37, and the assembly of bars represented by FIG. 8B is then obtained. A clip 26 provides the electrical connection between the conductive tracks 34 and 35 of FIG. 8A, and the tracks 33 and 36 are connected to taps of the winding as explained above with reference to FIG. 9.

La figure 6A représente l'extrémité extérieure d'une pipe munie de fentes 15 autour d'un passage de câble. Les fentes 15 permettent un serrage par constriction. On emploie par exemple un bouchon 17 représenté en figure 6B, vissé sur le filetage 16 de la pipe, de façon à provoquer le serrage. On peut aussi employer une bague 18 représentée en figure 6C, enfoncée à force sur l'extrémité tronconique de la pipe. On peut encore employer une vis transversale 19, tel que représentée en figure 6D, pour serrer le câble. Bien que les figures 6A et D représentent une pipe à un câble, il est évident que les moyens décrits en référence à ces figures et plus particulièrement à la figure 6D s'appliquent aussi bien à une pipe à deux câbles.Figure 6A shows the outer end of a pipe provided with slots 15 around a cable passage. The slots 15 allow tightening by constriction. One uses for example a plug 17 shown in Figure 6B, screwed onto the thread 16 of the pipe, so as to cause tightening. One can also use a ring 18 shown in Figure 6C, forced into the frustoconical end of the pipe. It is also possible to use a transverse screw 19, as shown in FIG. 6D, to tighten the cable. Although FIGS. 6A and D represent a pipe with a cable, it is obvious that the means described with reference to these figures and more particularly in FIG. 6D apply equally well to a pipe with two cables.

On peut utiliser pour bloquer le/les câbles, une pièce en forme de coin qui est glissée jusqu'à blocage entre les deux câbles, ou entre un câble et une butée prévue sur l'extrémité de la pipe. On peut ainsi remplacer une partie de la piste conductrice 36 (figure 8A) par une piste résistive de façon à réaliser une résistance-talon.One can use to block the cable (s), a wedge-shaped piece which is slid until locked between the two cables, or between a cable and a stop provided on the end of the pipe. It is thus possible to replace part of the conductive track 36 (FIG. 8A) with a resistive track so as to produce a heel resistance.

Claims (10)

1. A device for generating a variable voltage for powering at least one electrode of a cathode-ray - tube, which device comprises a transformer having a winding for applying at least one voltage, to at least one potentiometer (2) whose wiper carries a variable voltage, and at least one hollow portion (10), referred to as "pipe", into which at least one electrical cable (9) is inserted and in which said cable is brought into contact with the winding, characterized in that the potentiometer is realized inside the pipe, the cable receiving directly the variable voltage therein in that at least one resistive layer (2) which forms the potentiometer is arranged inside said pipe, one end of said layer being connected to the winding (20), the electrical cable being provided with means which are connected to its core for establishing contact with said layer, the insertion depth of the cable in the pipe being adjustable, thus shifting the point of contact with the resistive layer.
2. A device as claimed in Claim 1, characterized in that the means for establishing contact with the layer are formed by the end (13) of the conductive core of the cable, folded back onto its insulating sheath.
3. A device as claimed in Claim 1, characterized in that the means for establishing contact with the layer are formed by a ferrule (14) comprising at least one elastic strip.
4. A device as claimed in any one of the preceding Claims, characterized in that the resistive layer is provided in a groove in the wall of the pipe.
5. A device as claimed in any one of the preceding Claims, characterized in that the other end of the resistive layer is connected to another point of the winding (20).
6. A device as claimed in any one of the preceding Claims, characterized in that at least one insulating strip on which there is provided a resistive layer is arranged in the pipe.
7. A device as claimed in any one of the Claims 1 to 5, characterized in that the resistive layer is deposited directly on the inner wall of the pipe.
8. A device as claimed in any one of the preceding Claims, characterized in that its hollow portion comprises two recesses for two cables (9, 20), each recess being provided with a resistive layer supplying the focussing voltage and the voltage for the second grid of the cathode-ray tube, respectively.
9. A device as claimed in any one of the Claims 1 to 6, characterized in that its hollow portion comprises two recesses for two cables, each recess being provided with an insulating strip (31, 32) on which there is provided a resistive layer (2, 28), said strips being arranged back-to-back between the two recesses, their resistive layers being connected in series.
10. A device as claimed in any one of the preceding Claims, characterized in that it is provided with cable-locking means.
EP84201569A 1983-11-07 1984-10-31 Voltage control device for cathode-ray tube electrodes Expired EP0142200B1 (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
FR8317650 1983-11-07
FR8317650A FR2554635B1 (en) 1983-11-07 1983-11-07 CONCENTRATION ADJUSTING DEVICE FOR TUBE WITH CATHODE RAYS
FR8407954 1984-05-22
FR8407954A FR2565025B1 (en) 1984-05-22 1984-05-22 ELECTRODE VOLTAGE ADJUSTING DEVICE FOR CATHODE RAY TUBE

Publications (3)

Publication Number Publication Date
EP0142200A2 EP0142200A2 (en) 1985-05-22
EP0142200A3 EP0142200A3 (en) 1985-06-19
EP0142200B1 true EP0142200B1 (en) 1988-05-11

Family

ID=26223661

Family Applications (1)

Application Number Title Priority Date Filing Date
EP84201569A Expired EP0142200B1 (en) 1983-11-07 1984-10-31 Voltage control device for cathode-ray tube electrodes

Country Status (6)

Country Link
US (1) US4596949A (en)
EP (1) EP0142200B1 (en)
AU (1) AU565369B2 (en)
CA (1) CA1246244A (en)
DE (1) DE3471195D1 (en)
ES (1) ES8600566A1 (en)

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2591794B1 (en) * 1985-12-13 1989-01-13 Orega Electro Mecanique HIGH VOLTAGE TRANSFORMER WITHOUT HIGH VOLTAGE OUTPUT CABLES AND WITH REMOVABLE POTENTIOMETRIC BLOCK, PARTICULARLY FOR A TRICHROME CATHODE RAY TUBE
US4714068A (en) * 1986-05-29 1987-12-22 Toyota Jidosha Kabushiki Kaisha Method and device for controlling fuel injection quantity of electronic control diesel engine
NL9001351A (en) * 1990-06-14 1992-01-02 Philips Nv DEVICE WITH A SEALED CONNECTOR FOR A HIGH VOLTAGE CABLE.
US6639507B1 (en) * 2002-04-29 2003-10-28 Vladimir Tubaltsev Plated precision potentiometer

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2481682A (en) * 1948-09-13 1949-09-13 Viron E Payne Adjustable resistor
GB1449646A (en) * 1972-11-20 1976-09-15 Matsushita Electric Ind Co Ltd High voltage generator for television apparatus
US3886434A (en) * 1973-09-07 1975-05-27 Warwick Electronics Inc Flyback transformer
DE2830957C2 (en) * 1978-07-14 1982-11-04 Grundig E.M.V. Elektro-Mechanische Versuchsanstalt Max Grundig & Co KG, 8510 Fürth Input transformer
JPS5532083U (en) * 1978-08-24 1980-03-01

Also Published As

Publication number Publication date
CA1246244A (en) 1988-12-06
ES537380A0 (en) 1985-09-16
ES8600566A1 (en) 1985-09-16
US4596949A (en) 1986-06-24
AU565369B2 (en) 1987-09-10
AU3512084A (en) 1985-05-16
DE3471195D1 (en) 1988-06-16
EP0142200A2 (en) 1985-05-22
EP0142200A3 (en) 1985-06-19

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