EP0171690A1 - Coil-configuration with magnetizable pin core - Google Patents

Coil-configuration with magnetizable pin core Download PDF

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Publication number
EP0171690A1
EP0171690A1 EP85109434A EP85109434A EP0171690A1 EP 0171690 A1 EP0171690 A1 EP 0171690A1 EP 85109434 A EP85109434 A EP 85109434A EP 85109434 A EP85109434 A EP 85109434A EP 0171690 A1 EP0171690 A1 EP 0171690A1
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EP
European Patent Office
Prior art keywords
coil
windings
winding
coil according
pin core
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.)
Granted
Application number
EP85109434A
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German (de)
French (fr)
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EP0171690B1 (en
Inventor
Walter Dipl.-Ing. Goseberg
Alfred Pollak
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Deutsche Thomson oHG
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Telefunken Fernseh und Rundfunk GmbH
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Priority claimed from DE3429976A external-priority patent/DE3429976A1/en
Priority claimed from DE19853525649 external-priority patent/DE3525649A1/en
Application filed by Telefunken Fernseh und Rundfunk GmbH filed Critical Telefunken Fernseh und Rundfunk GmbH
Priority to AT85109434T priority Critical patent/ATE30805T1/en
Publication of EP0171690A1 publication Critical patent/EP0171690A1/en
Application granted granted Critical
Publication of EP0171690B1 publication Critical patent/EP0171690B1/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F1/00Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F21/00Variable inductances or transformers of the signal type
    • H01F21/02Variable inductances or transformers of the signal type continuously variable, e.g. variometers
    • H01F21/06Variable inductances or transformers of the signal type continuously variable, e.g. variometers by movement of core or part of core relative to the windings as a whole

Definitions

  • the magnetic fluff within the individual windings is thus determined by the air gap within the winding, while the air gap is kept as small as possible in the central web common to the two coils, so that the magnetic coupling of the two coils to one another reaches a minimum order of magnitude, that of a separate one Use of the two coils zF with different Preceunzen permits.
  • this surface is optimally level thanks to special work processes.
  • the object of the invention is to provide a coil with several windings for different applications with only one iron core.
  • magnetic fields of different sizes are generated by two coils connected in series and arranged next to one another on a body with the same inductance depending on the polarity of the coils to one another when an AC voltage is applied in the common coil axis. If the coils are polarized in the same direction, this magnetic field reaches a certain value, whereas if the polarity is in opposite polarity, the resulting magnetic field is not or hardly detectable.
  • This knowledge is used in solving problems in a coil arrangement with a pin core in order to realize coils for different tasks and with different frequencies.
  • a third winding is arranged between the side-by-side, series-connected magnetically polarized windings, this winding is approximately free of field lines of the outer windings and can be used as a separate coil.
  • it is expedient to arrange the coil with the larger inductance in the center since when a pin core is used, this coil is fully immersed and there are no inductance losses as with the outer coils due to the mutually polarized windings.
  • Manufacturing tolerances can be compensated for during manufacture by moving the pin core, so that the outer windings have exactly the same inductances and, when an AC voltage is applied, large magnetic fields directed against one another.
  • the reverse polarity of the outer windings causes losses in inductance. Despite these inductance losses, the outer windings will have sufficient inductance. emerge. achieved by stray fields.
  • the winding 1 shows a coil with three windings 2, 3 and 4 with the winding connections 6, 7, 8 and 9.
  • the windings are arranged next to one another on a winding body 5.
  • a magnetizable pin core 1 which is adjustable in its position relative to the windings.
  • the outer windings 2 and 4 are arranged in such a way that the pin core approximately closes with the outer edges of the coil. They are connected in series so that they act magnetically in opposite directions. The direction of the magnetic fields is indicated by the field lines. Due to the distance between the outer windings 2.4 and their polarity, the magnetic coupling of these windings to one another is such that sufficient inductance can still be achieved.
  • the decoupling of the winding 3 is optimal if the pin core 1 is set so that the magnetic fields of the outer windings 2.4 are the same. Since the pin core. : 1 fully immersed in the middle winding 3, the field lines of this coil close in the manner shown, the direction of the field lines and the frequency applied can be selected. The middle winding 3 induces currents in the outer windings which are the same size and cancel each other out by the opposite polarity.
  • Fig. 2 shows part of a horizontal deflection circuit in a television g et up instrument with an input 10, the deflection coils 11,12, the linear adjuster 14, the tangent of the capacitor 15, the bridge coil 16, the parallel capacitor 17, the diodes 18,19, the return capacitors 20, 21, the east-west drive coil 22 and the east-west circuit 23.
  • the middle winding 3 is used as an east-west control coil with approx. 6 mH and the series connection of the outer windings 2.4 as a bridge coil with approx. 1.7 mH in a television set.
  • the outer windings 2, 4 can be wound in the same winding direction or in opposite directions to one another. If different wire diameters are to be used, it is cheaper to arrange the east-west control coil in the outer chambers and the bridge coil in the middle chamber.
  • FIG. 4 shows a part of a vertical deflection circuit in a television set with a vertical integration coil 2, 4 and the control part for a horizontal deflection circuit with a line driver transformer 3.
  • pulses for controlling the current in the horizontal deflection coils are supplied from a pulse generator. They are amplified in transistor 40, the collector of which is connected to a connection of primary coil 31 of row driver transformer 3. The other connection is on the supply voltage + UB. The pulses arrive from the secondary coil 30 at the input of the line end transistor 43, from whose collector connection C the horizontal deflection coils (not shown) and the line transformer are driven.
  • Thyristor 36 is to be understood as a switch by means of which the horizontal flyback pulses applied to the series connection of the vertical deflection coils 40 with the vertical integration coil 2, 4 in time with the horizontal frequency are switched from the winding 39 of the line transformer, which is also in series.
  • the vertical integration coil 2, 4 the course of the vertical deflection voltage is shaped such that lines are written on the screen with the same vertical spacing.
  • the coils 30, 31 and 2.4 are arranged on a pin core, which is indicated by the connecting, dashed line for the common iron core.
  • FIG. 5 shows the arrangement of the windings for the line driver transformer 3 and for the vertical integration coil 2, 4 according to FIG. 4th
  • the winding core 5 with five winding chambers has the iron core 1 arranged in the form of a pin core approximately centrally to the chambers.
  • the outer chambers take the opposite direction together wound partial coils of the vertical integration coil 2.4.
  • the row driver transformer is housed in the three middle chambers.
  • the secondary winding 30 is located as the lower winding close to the iron core.
  • the winding distribution is chosen so that the middle chamber receives a larger number of secondary turns than the adjacent chambers, which enables an optimal field distribution, so that mutual interference between the row driver transformer and the vertical integration coil can be minimized. Because of the larger wire diameter and also because of the high currents, it has proven to be expedient to arrange the secondary coil in the lower winding layers of the three middle chambers. It is expediently wound with the same wire that is also provided for the vertical integration coils.
  • the primary winding 31 is applied as the last winding to the secondary winding 30 underneath.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Coils Or Transformers For Communication (AREA)
  • Coils Of Transformers For General Uses (AREA)

Abstract

Die Erfindung betrifft eine Spulenanordnung mit drei nebeneinander angeordneten Wicklungen, wobei die äußeren Wicklungen in Reihe geschaltet sind. Die Induktivitäten der äußeren Wicklungen sind gleich groß und ihre Magnetfelder sind gegensinnig gepolt. Die mittlere Wicklung induziert in der Reihenschaltung der äußeren Wicklungen Ströme, die einander aufheben. Die äußeren Wicklungen mit ihren Streuinduktivitäten bilden eine Spule, die von der mittleren getrennt für andere Aufgabe eingesetzt werden kann.The invention relates to a coil arrangement with three windings arranged next to one another, the outer windings being connected in series. The inductances of the outer windings are the same size and their magnetic fields are polarized in opposite directions. The middle winding induces currents in the series connection of the outer windings that cancel each other out. The outer windings with their leakage inductances form a coil that can be used separately from the middle one for other tasks.

Description

Bei Geräten der Nachrichtentechnik ist es bekannt, Spulen, die miteinander magnetisch verkoppelt sind, auf einem Spulenkörper neben- oder übereinander anzuordnen. In den Spulenkörper taucht ein magnetisierbarer Eisenkern ein, durch den der Kopplungsfaktor der Spulen untereinander und die Größe der Induktivitäten beeinflußt wird. Dieser Eisenkern ist für einfache Spulenanordnungen als Stiftkern ausgeführt. Für eine gewünschte Veränderung der Parameter ist der Stiftkern mit einem Gewinde versehen und in seiner Lage zu den Spulen verstellbar. Gemeinsam für die einzelnen Teilspulen ist in einem derartigen Aufbau die Frequenz der Ströme.In telecommunications equipment, it is known to arrange coils that are magnetically coupled to one another on a coil body next to or above one another. A magnetizable iron core is immersed in the coil body, which influences the coupling factor of the coils with one another and the size of the inductors. This iron core is designed as a pin core for simple coil arrangements. For a desired change of the parameters, the pin core is provided with a thread and its position relative to the coils can be adjusted. In such a construction, the frequency of the currents is common to the individual sub-coils.

Sollen die einzelnen Wicklungen einer Spule mit unterschiedlichen Frequenzen oder gleicher Frequenz aber für getrennte elektrische Anwendungen verwendet werden, ist dafür zu sorgen, daß die Kopplung der Spulen untereinander minimiert wird. Die Kopplung muß so gering sein, daß keine magnetische Beeinflussung untereinander erfolgt. Um eine derartige Lösung zu erreichen, ist es bekannt, einen magnetischen Eisenkern in doppel E-Form zu verwenden. Dabei werden die beiden E-förmigen Teile so zusammengefügt, daß sich ein Rechteck mit zwei Fensteröffnungen ergibt. Die Wicklungen sind auf den beiden außen liegenden Schenkeln angeordnet. Die magnetische Trennung wird dadurch erreicht, daß in die äußeren Schenkel des E-förmigen Eisenkerns ein Luftspalt eingeschliffen wird, während im mittleren Steg die Eisenteile direkt aufeinander liegen. Der magnetische Fluf innerhalb der einzelnen Wicklungen wird also durch den Luftspalt innerhalb der Wicklung bestimmt, während in dem beiden Spulen gemeinsamen mittleren Steg der Luftspalt so gering wie möglich geyalten wird, so daß die magnetische Verkopplung beider Spuler untereinander eine minimale Größenordnung erreicht, die einer getrennten Einsatz der beiden Spulen z.F. mit verschiedenen Preceunzen zuläßt. Um im mittleren Sted beim Zusammenfücen der Eisenteile möglichst keinen Luftspalt zu erhalten, ist diess Pläche durch besondere Arbeitsvorgänge optimal eben ausgeführt.However, if the individual windings of a coil with different frequencies or the same frequency are to be used for separate electrical applications, care must be taken to minimize the coupling of the coils to one another. The coupling must be so low that there is no magnetic interference with one another. In order to achieve such a solution, it is known to use a magnetic iron core in a double E-shape. The two E-shaped parts are put together so that a rectangle with two window openings results. The windings are arranged on the two outer legs. The magnetic separation is achieved by grinding an air gap into the outer legs of the E-shaped iron core, while the iron parts lie directly on top of each other in the central web. The magnetic fluff within the individual windings is thus determined by the air gap within the winding, while the air gap is kept as small as possible in the central web common to the two coils, so that the magnetic coupling of the two coils to one another reaches a minimum order of magnitude, that of a separate one Use of the two coils zF with different Preceunzen permits. In order to avoid any air gap when assembling the iron parts in the middle sted, this surface is optimally level thanks to special work processes.

Da eine derartige Anordnung mit zwei E-förmigen Eisenteilen sehr kostenaufwendig ist, liegt der Erfindung die Aufgabe zugrunde, eine Spule mit mehreren Wicklungen für unterschiedliche Anwendungen mit nur einem Eisenkern anzugeben.Since such an arrangement with two E-shaped iron parts is very expensive, the object of the invention is to provide a coil with several windings for different applications with only one iron core.

Diese Aufgabe wird durch die im Anspruch 1 beschriebene Erfindung gelöst. Vorteilhafte Weiterbildungen der Erfindung sind in den Unteransprüchen beschrieben.This object is achieved by the invention described in claim 1. Advantageous developments of the invention are described in the subclaims.

Im Prinzip werden durch zwei in Reihe geschaltete, nebeneinander auf einem Körper angeordnete Spulen mit gleich großer Induktivität je nach Polung der Spulen zueinander beim Anlagen einer Wechselspannung in der gemeinsamen Spulenachse unterschiedlich große Magnetfelder erzeugt. Bei gleichsinniger Polung der Spulen erreicht dieses Magnetfeld einen bestimmten Wert, während bei gegensinniger Polung das resultierende Magnetfeld nicht oder kaum nachzuweisen ist. Diese Erkenntnis wird bei der Problemlösung in einer Spulenanordnung mit einem Stiftkern ausgenutzt, um Spulen für unterschiedliche Aufgaben und mit verschiedenen Frequenzen zu realisieren. Wird nämlich zwischen den nebeneinander liegenden, in Reihe geschalteten magnetisch gegensinnig gepolten Wicklungen eine dritte Wicklung angeordnet, ist diese näherungsweise frei von Feldlinien der äußeren Wicklungen und kann als gesonderte Spule eingesetzt werden. Bei unterschiedlichen Induktivitäten ist es zweckmäßig, die Spule mit der größeren Induktivität in der Mitte anzuordnen, da in diese Spule bei Verwendung eines Stiftkernes dieser voll eintaucht und keine Induktivitätsverluste wie bei den äußeren Spulen durch die gegeneinander gepolten Wicklungen entstehen. Fertigungstoleranzen können bei der Herstellung durch Verschieben des Stiftkerns ausgeglichen werden, so daß die äußeren Wicklungen exakt gleich große Induktivitäten und bei Anlegen einer Wechselspannung clcich große gegeneinander gerichtete Magnetfelder aufweisen. Ihe gegenpolige Schaltung der äußeren Wicklungen bedingt Induktivitätsverluste. Trotz dieser Induktivitätsverluste wird die außeren Wicklungen eine ausreichende Induktivität. hervorgeuigen. durch Streufelder erzielt.In principle, magnetic fields of different sizes are generated by two coils connected in series and arranged next to one another on a body with the same inductance depending on the polarity of the coils to one another when an AC voltage is applied in the common coil axis. If the coils are polarized in the same direction, this magnetic field reaches a certain value, whereas if the polarity is in opposite polarity, the resulting magnetic field is not or hardly detectable. This knowledge is used in solving problems in a coil arrangement with a pin core in order to realize coils for different tasks and with different frequencies. If a third winding is arranged between the side-by-side, series-connected magnetically polarized windings, this winding is approximately free of field lines of the outer windings and can be used as a separate coil. In the case of different inductances, it is expedient to arrange the coil with the larger inductance in the center, since when a pin core is used, this coil is fully immersed and there are no inductance losses as with the outer coils due to the mutually polarized windings. Manufacturing tolerances can be compensated for during manufacture by moving the pin core, so that the outer windings have exactly the same inductances and, when an AC voltage is applied, large magnetic fields directed against one another. The reverse polarity of the outer windings causes losses in inductance. Despite these inductance losses, the outer windings will have sufficient inductance. emerge. achieved by stray fields.

Zum besseren Verständnis der Erfindung werden nachstehend Ausführungsbeispiele anhand von Zeichnungen näher erläutert. Es zeigen:

  • Fig. 1 eine Schemazeichnung,
  • Fig. 2 einen Teil einer Horizontal-Ablenkschaltung in einem Fernsehgerät mit Ost-West-Kissenentzerrung, in der die Erfindung vorteilhaft Verwendung finden kann,
  • Fig. 3 ein Ausführungsbeispiel für eine Spule nach Fig. 2,
  • Fig. 4 einen Teil einer Vertikal-Ablenkschaltung in einem Fernsehgerät mit einer Vertikal-Integrationsspule und dem Ansteuerteil für eine Horizontalablenkschaltung mit einem Zeilen-Treibertransformator,
  • Fig. 5 die Anordnung der Wicklungen für den Zeilen-Treibertransformator und für die Vertikal-Integrationsspule nach Fig. 4.
To better understand the invention, exemplary embodiments are explained in more detail below with reference to drawings. Show it:
  • 1 is a schematic drawing,
  • 2 shows a part of a horizontal deflection circuit in a television set with east-west pillow equalization, in which the invention can advantageously be used,
  • 3 shows an embodiment of a coil according to FIG. 2,
  • 4 shows a part of a vertical deflection circuit in a television set with a vertical integration coil and the control part for a horizontal deflection circuit with a line driver transformer,
  • 5 shows the arrangement of the windings for the line driver transformer and for the vertical integration coil according to FIG. 4.

Die Fig. 1 zeigt eine Spule mit drei Wicklungen 2,3 und 4 mit den Wicklungsanschlüssen 6,7,8 und 9. Die Wicklungen sind nebeneinander auf einem Wickelkörper 5 angeordnet. Im Wickelkörper 5 befindet sich ein magnetisierbarer Stiftkern 1, der in seiner Lage zu den Wicklungen verstellbar ist. Die äußeren Wicklungen 2 und 4 sind derart angeordnet, daß der Stiftkern mit den Spulenaußenkanten annähernd abschließt. Sie sind so in Reihe geschaltet, daß sie magnetisch gegensinnig wirken. Die Richtung der Magnetfelder wird durch die eingezeichneten Feldlinien angedeutet. Durch den Abstand der äußeren Wicklungen 2,4 zueinander und ihre Polung ist die magnetische Verkopplung dieser Wicklungen zueinander so, daß noch eine ausreichende Induktivität erzielbar ist. Die Entkopplung der Wicklung 3 ist optimal, wenn der Stiftkern 1 so eingestellt wird, daß die Magnetfelder der äußeren Wicklungen 2,4 gleich graf sind. Da der Stiftkerr. : 1 in die mittlere Wicklung 3 voll eintaucht, Schließen sich die Feldlinien dieser Spule in der cargestellter Weise, war- bei Richtung der Feldlinien und die angelegte Frequenz vählbar sind. Die mittlere Wicklung 3 induziert in den äußeren Wicklur- cen Ströme, die gleich groß sind und einander durch die gegen- sinnige Polung auslöschen.1 shows a coil with three windings 2, 3 and 4 with the winding connections 6, 7, 8 and 9. The windings are arranged next to one another on a winding body 5. In the winding body 5 there is a magnetizable pin core 1, which is adjustable in its position relative to the windings. The outer windings 2 and 4 are arranged in such a way that the pin core approximately closes with the outer edges of the coil. They are connected in series so that they act magnetically in opposite directions. The direction of the magnetic fields is indicated by the field lines. Due to the distance between the outer windings 2.4 and their polarity, the magnetic coupling of these windings to one another is such that sufficient inductance can still be achieved. The decoupling of the winding 3 is optimal if the pin core 1 is set so that the magnetic fields of the outer windings 2.4 are the same. Since the pin core. : 1 fully immersed in the middle winding 3, the field lines of this coil close in the manner shown, the direction of the field lines and the frequency applied can be selected. The middle winding 3 induces currents in the outer windings which are the same size and cancel each other out by the opposite polarity.

Die Fig. 2 zeigt einen Teil einer Horizontal-Ablenkschaltung in einem Fernsehgerät mit einem Eingang 10, den Ablenkspulen 11,12, dem linearen Einsteller 14, dem Tangenskondensator 15, der Brückenspule 16, dem Parallelkondensator 17, den Dioden 18,19, den Rücklaufkondensatoren 20,21, der Ost-West-Ansteuerspule 22 und der Ost-West-Schaltung 23.Fig. 2 shows part of a horizontal deflection circuit in a television g et up instrument with an input 10, the deflection coils 11,12, the linear adjuster 14, the tangent of the capacitor 15, the bridge coil 16, the parallel capacitor 17, the diodes 18,19, the return capacitors 20, 21, the east-west drive coil 22 and the east-west circuit 23.

In einem bevorzugten Ausführungsbeispiel wird die mittlere Wicklung 3 als Ost-West-Ansteuerspule mit ca. 6 mH und die Reihenschaltung der äußeren Wicklungen 2,4 als Brückenspule mit ca. 1,7 mH in einem Fernsehgerät eingesetzt. Es ist für eine rationelle Fertigung zweckmäßig, alle Wicklungen mit gleichem Drahtdurchmesser auszuführen. Die äußeren Wicklungen 2,4 können je nach Anschlußfolge im gleichen Wickelsinn oder auch gegensinnig zueinander gewickelt werden. Sollen unterschiedliche Drahtduchmesser verwendet werden, ist es günstiger, die Ost-West-Ansteuerspule in den Außenkammern und die Brückenspule in der Mittelkammer anzuordnen.In a preferred embodiment, the middle winding 3 is used as an east-west control coil with approx. 6 mH and the series connection of the outer windings 2.4 as a bridge coil with approx. 1.7 mH in a television set. For rational production, it is advisable to carry out all windings with the same wire diameter. Depending on the connection sequence, the outer windings 2, 4 can be wound in the same winding direction or in opposite directions to one another. If different wire diameters are to be used, it is cheaper to arrange the east-west control coil in the outer chambers and the bridge coil in the middle chamber.

Die Fig. 3 zeigt einen Stiftkern 1 in einem Wickelkörper 5 mit Spulenkammern 25,26,27 und den Anschlußstiften 29. In diesem Ausführungsbeispiel ragt derStiftkern 1 über die Spulenkammern 25 und 27 hinaus. Zu den Vorteilen einer Spule mit gleichem Drahtdurchmesser zählt auch eine optimale Wickeltechnik, insbesondere bei automatisch gefertigten Spulen. Deshalb werden die Spulenkammern 25 und 27 in einem Arbeitsgang bewickelt. Dies geschieht folgendermaßen:

  • Kammer 25 wird bewickelt, danach wird in Kammer 26 im gleichen Wickelsinn wie in Kammer 25 eine Übergangswindung bis Kammer 27 gewickelt, die Kammer 27 wird mit entgegengesetztem Wickelsinn wie Kammer 25 bewickelt. Dann wird in Kammer 26 im gleichen Wickelsinn wie Kammer 27 eine Übergangswindung gewickelt und herausgeführt. Zur Abschluß wird Kammer 2f rit beliebigem Wickelsinn bewickelt.
3 shows a pin core 1 in a winding body 5 with coil chambers 25, 26, 27 and the connecting pins 29. In this exemplary embodiment, the pin core 1 projects beyond the coil chambers 25 and 27. The advantages of a spool with the same wire diameter also include an optimal winding technology, especially with automatically manufactured spools. Therefore, the coil chambers 25 and 27 are wound in one operation. This is done as follows:
  • Chamber 25 is wound, then a transition turn to chamber 27 is wound in chamber 26 in the same winding direction as in chamber 25, chamber 27 is wound with the opposite winding direction as chamber 25. Then a transition turn is wound in chamber 26 in the same direction as chamber 27 and led out. Finally, chamber 2f is wound with any winding direction.

Fig. 4 zeigt einen Teil einer Vertikal-Ablenkschaltunq in einem Fernsehgerät mit einer Vertikal-Integrationsspule 2,4 und dem Ansteuerteil für eine Horizontalablenkschaltung mit einem Zeilen-Treibertransformator 3.4 shows a part of a vertical deflection circuit in a television set with a vertical integration coil 2, 4 and the control part for a horizontal deflection circuit with a line driver transformer 3.

An den Anschluß A werden aus einem Impulsgeber Impulse für die Steuerung des Stromes in den Horizontalablenkspulen zugeführt. Sie werden im Transistor 40 verstärkt, dessen Kollektor mit einem Anschluß der Primärspule 31 des Zeilen-Treibertransformators 3 verbunden ist. Der andere Anschluß liegt an der Versorgungsspannung +UB. Von der Sekundärspule 30 gelangen die Impulse an den Eingang des Zeilenendtransistors 43, von dessen Kollektoranschluß C die nichtdargestellten Horizontalablenkspulen und der Zeilentransformator angesteuert werden.At terminal A, pulses for controlling the current in the horizontal deflection coils are supplied from a pulse generator. They are amplified in transistor 40, the collector of which is connected to a connection of primary coil 31 of row driver transformer 3. The other connection is on the supply voltage + UB. The pulses arrive from the secondary coil 30 at the input of the line end transistor 43, from whose collector connection C the horizontal deflection coils (not shown) and the line transformer are driven.

An Anschluß B werden aus einem Impulsgenerator Impulse für die Vertikalablenkung zugeführt. Thyristor 36 ist als Schalter aufzufassen, durch den die an die Reihenschaltung der Vertikalablenkspulen 40 mit Vertikal-Integrationsspule 2,4 im Takte der Horizontalfrequenz angelegten Horizontalrücklaufimpulse aus der ebenfalls in Reihe liegenden Wicklung 39 des Zeilentransformators geschaltet werden. Durch die Vertikal-Integrationsspule 2,4 wird der Verlauf der Vertikal-Ablenkspannung so geformt, daß auf dem Bildschirm Zeilen mit gleichem vertikalen Abstand geschrieben werden.At port B, pulses for vertical deflection are supplied from a pulse generator. Thyristor 36 is to be understood as a switch by means of which the horizontal flyback pulses applied to the series connection of the vertical deflection coils 40 with the vertical integration coil 2, 4 in time with the horizontal frequency are switched from the winding 39 of the line transformer, which is also in series. By means of the vertical integration coil 2, 4, the course of the vertical deflection voltage is shaped such that lines are written on the screen with the same vertical spacing.

Die Spulen 30,31 und 2,4 sind auf einem Stiftkern angeordnet, welches durch die verbindende, gestrichelte Linie für den gemeinsamen Eisenkern angedeutet wird.The coils 30, 31 and 2.4 are arranged on a pin core, which is indicated by the connecting, dashed line for the common iron core.

Fig. 5 zeigt die Anordnung der Wicklungen für den Zeilen-Treibertransformator 3 und für die Vertikal-Irtegrationsspule 2,4 nach Fia. 4.5 shows the arrangement of the windings for the line driver transformer 3 and for the vertical integration coil 2, 4 according to FIG. 4th

In einen. Wickelkörper 5 mit fünf Wickelkammern ist der Eisenkern 1 in Form eines Stiftkernes etwa mittic zu den Kammern angeordnet. Die äußeren Kammern nehmen die gogensinnig zueinandex gewickelten Teilspulen der vertikal-Integrationsspule 2,4 auf. Durch diese gegensinnige Wickelart heben sich Streufelder so weit auf, daß ein teurer Ferritbecher für Schirmungszwecke nicht benötiqt wird.In a. The winding core 5 with five winding chambers has the iron core 1 arranged in the form of a pin core approximately centrally to the chambers. The outer chambers take the opposite direction together wound partial coils of the vertical integration coil 2.4. Through these opposing of winding up stray fields cancel so wide, that a more expensive Ferritbecher for Schirmungszwecke is not benöti q t.

Der Zeilen-Treibertransformator ist in den drei mittleren Kammern untergebracht. Die Sekundärwicklung 30 liegt als untere Wicklung nahe am Eisenkern. Die Wicklungsverteilung ist so gewählt, daß die mittlere Kammer eine größere Sekundärwindungszahl aufnimmt als die danebenliegenden Kammern aufweisen, wodurch eine optimale Feldverteilung möglich ist, so daß eine gegenseitige Beeinflussung von Zeilen-Treibertransformator und Vertikal-Integrationsspule minimiert werden kann. Wegen des größeren Drahtdurchmessers und auch wegen der hohen Ströme hat es sich als zweckmäßig erwiesen, die Sekundärspule in den unteren Wicklungslaaen der drei mittleren Kammern anzuordnen. Zweckmäßigerweise wird diese mit demselben Draht gewickelt, der auch für die Vertikal-Integrationsspulen vorgesehen ist.The row driver transformer is housed in the three middle chambers. The secondary winding 30 is located as the lower winding close to the iron core. The winding distribution is chosen so that the middle chamber receives a larger number of secondary turns than the adjacent chambers, which enables an optimal field distribution, so that mutual interference between the row driver transformer and the vertical integration coil can be minimized. Because of the larger wire diameter and also because of the high currents, it has proven to be expedient to arrange the secondary coil in the lower winding layers of the three middle chambers. It is expediently wound with the same wire that is also provided for the vertical integration coils.

Die Primärwicklung 31 ist als letzte Wicklung auf die darunterliegende Sekundärwicklung 30 aufgebracht.The primary winding 31 is applied as the last winding to the secondary winding 30 underneath.

Claims (10)

1. Spule mit magnetisierbarem Stiftkern (1), mit mehreren, insbesondere drei nebeneinander angeordneten etwa gleichmäßig zum Stiftkern (1) verteilten Wicklungen (2,3,4), wobei äußere Wicklungen (2,4) näherungsweise gleich große Windungszahler. aufweisen, dadurch gekennzeichnet, daß der Stiftkern (1) in eine mittlere Wicklung (3) voll und in die äußeren Wicklungen (2,4) zum Teil oder voll derart eintaucht, daß die äußeren Wicklungen (2,4) näherungsweise gleich große Induktivitäten aufweisen und daß die äußeren Wicklungen (2,4) so in Reihe geschaltet sind, daß beim Anlegen z.B. einer Wechselspannung ihr Magnetfelder im Stiftkern (1) gegensinnig zueinander wirken.1. Coil with a magnetizable pin core (1), with a plurality of windings (2, 3, 4) which are arranged next to one another and are approximately equally distributed with respect to the pin core (1), outer windings (2,4) having approximately the same number of turns. characterized in that the pin core (1) is fully immersed in a central winding (3) and partially or fully immersed in the outer windings (2, 4) such that the outer windings (2, 4) have approximately the same inductances and that the outer windings (2,4) are connected in series so that, for example an alternating voltage their magnetic fields in the pin core (1) act in opposite directions to each other. 2. Spule nach Anspruch 1, dadurch gekennzeichnet, daß alle Wicklungen (2,3,4) gleichen Wickelsinn haben.2. Coil according to claim 1, characterized in that all windings (2,3,4) have the same winding direction. 3. Spule nach Anspruch 1, dadurch gekennzeichnet, daß die äußeren Wicklungen (2,4) gegensinnig zueinander gewickelt sind.3. Coil according to claim 1, characterized in that the outer windings (2,4) are wound in opposite directions to each other. 4. Spule nach einer der Ansprüche 1 - 3, dadurch gekennzeichnet, daß der Stiftkern (1) verstellbar ist, sc daß die äußeren Wicklungen (2, 4) auf gleich große Induktivität einstellbar sind.4. Coil according to one of claims 1-3, characterized in that the pin core (1) is adjustable, sc that the outer windings (2, 4) are adjustable to the same size inductance. 5. Spule nach einem der Ansprüche 1 - 4, dadurch gekennzeichnet, daß der Stiftkern (1) aus ferromagnetischem Material, insbesondere Ferrit, besteht.5. Coil according to one of claims 1-4, characterized in that the pin core (1) consists of ferromagnetic material, in particular ferrite. 6. Spule nach einem der Ansprüche 1 - 5, dadurch gekennzeichnet, daß alle drei Wicklungen (2,3,4) mit gleichem Drahtdurchmesser gewickelt sind.6. Coil according to one of claims 1-5, characterized in that all three windings (2,3,4) are wound with the same wire diameter. 7. Spule nach einem der Ansprüche 1 - 6, dadurch gekennzeichnet, daß die mittlere Wicklung (3) die größere Induktivität aufweist.7. Coil according to one of claims 1-6, characterized in that the central winding (3) has the greater inductance. 8. Spule nach einem der Ansprüche 1 - 7, dadurch gekennzeichnet, daß die äußeren Wicklungen (2,4) so ausgeführt sind, daß diese Wicklungen eine für sie ausreichend große Induktivität erzielen.8. Coil according to one of claims 1-7, characterized in that the outer windings (2,4) are designed so that these windings achieve a sufficiently large inductance for them. 9. Spule nach einem der Ansprüche 1 - 8, dadurch gekennzeichnet, daß die mittlere Wicklung (3) eine Ost-West-Ansteuerspule (22) und die in Reihe geschalteten äußeren Wicklungen (2,4) eine Brückenspule (16) für ein Fernsehgerät sind.9. Coil according to one of claims 1-8, characterized in that the middle winding (3) an east-west control coil (22) and the series-connected outer windings (2,4) a bridge coil (16) for a television set are. 10. Spule nach einem der Ansprüche 1 - 7, dadurch aekennzeichnete, daß die mittlere Wicklung (3) als Zeilen-Treibertransformator mit zwei übereinander angeordneten Wickellagen (30,31) und die in Reihe geschalteten äußeren Wicklungen (2,4) als eine Vertikal-Integrationsspule für ein Fernsehgerät ausgebildet ist.10. Coil according to one of claims 1-7, characterized in that the middle winding (3) as a line driver transformer with two superposed winding layers (30,31) and the series-connected outer windings (2,4) as a vertical -Integration coil is designed for a television set.
EP85109434A 1984-08-16 1985-07-26 Coil-configuration with magnetizable pin core Expired EP0171690B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT85109434T ATE30805T1 (en) 1984-08-16 1985-07-26 COIL ARRANGEMENT WITH MAGNETIZABLE PIN CORE.

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
DE3429976 1984-08-16
DE3429976A DE3429976A1 (en) 1984-08-16 1984-08-16 Coil having a pin core which can be magnetised
DE3525649 1985-07-18
DE19853525649 DE3525649A1 (en) 1985-07-18 1985-07-18 Coil having a pin core which can be magnetized

Publications (2)

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EP0171690A1 true EP0171690A1 (en) 1986-02-19
EP0171690B1 EP0171690B1 (en) 1987-11-11

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EP85109434A Expired EP0171690B1 (en) 1984-08-16 1985-07-26 Coil-configuration with magnetizable pin core

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US (2) US4680566A (en)
EP (1) EP0171690B1 (en)
KR (1) KR930005380B1 (en)
DE (1) DE3560972D1 (en)
ES (1) ES8700490A1 (en)
FI (1) FI853129L (en)
HK (1) HK26390A (en)
PT (1) PT80951B (en)
SG (1) SG13789G (en)

Cited By (2)

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EP0392110A2 (en) * 1989-04-10 1990-10-17 Kabushiki Kaisha Nippon Conlux Coin selector
WO2003010876A2 (en) * 2001-07-20 2003-02-06 Thomson Licensing S.A. Power factor correction circuit with a coil

Families Citing this family (4)

* Cited by examiner, † Cited by third party
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EP0171690B1 (en) * 1984-08-16 1987-11-11 TELEFUNKEN Fernseh und Rundfunk GmbH Coil-configuration with magnetizable pin core
DE3824642A1 (en) * 1988-07-20 1990-02-01 Vogt Electronic Ag DUO COIL E.g. AS A DRIVER AND VERTICAL DISTRACTION INTEGRATION COIL FOR THE EAST-WEST DIODE MODULATOR IN VIEWING EQUIPMENT
JP2974967B2 (en) * 1996-04-27 1999-11-10 ティーディーケイ株式会社 Converter transformer
US7317371B1 (en) * 2007-02-21 2008-01-08 Pearl Process Systems, Llc Linear variable differential transformer with complimentary step-winding secondary coils

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GB2079065A (en) * 1980-06-27 1982-01-13 Sharetree Ltd Linear differential transformer
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EP0392110A2 (en) * 1989-04-10 1990-10-17 Kabushiki Kaisha Nippon Conlux Coin selector
EP0392110A3 (en) * 1989-04-10 1990-11-14 Kabushiki Kaisha Nippon Conlux Coin selector
WO2003010876A2 (en) * 2001-07-20 2003-02-06 Thomson Licensing S.A. Power factor correction circuit with a coil
WO2003010876A3 (en) * 2001-07-20 2003-08-07 Thomson Licensing Sa Power factor correction circuit with a coil
US7002320B2 (en) 2001-07-20 2006-02-21 Thomson Licensing S.A. Power factor correction circuit with a coil

Also Published As

Publication number Publication date
US4680566A (en) 1987-07-14
ES8700490A1 (en) 1986-10-16
PT80951A (en) 1985-09-01
PT80951B (en) 1987-08-19
KR860002117A (en) 1986-03-26
KR930005380B1 (en) 1993-06-19
EP0171690B1 (en) 1987-11-11
HK26390A (en) 1990-04-12
FI853129L (en) 1986-02-17
FI853129A0 (en) 1985-08-15
SG13789G (en) 1990-07-06
ES546123A0 (en) 1986-10-16
DE3560972D1 (en) 1987-12-17
US4806831A (en) 1989-02-21

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