The invention provides, in one aspect, a connecting system (10) for contact-connecting busbars (11a, 13a; 11b, 13b) having different thicknesses (d11a, d13a; d11b, d13b). In illustrative embodiments in this invention, the connecting system (10) comprises a first busbar element (11a; 13a) having a first thickness (d11a; d11b) and a second busbar element (13a; 13b) having a second thickness (d13a; d13b), wherein the first thickness (d11a; d11b) is greater than the second thickness (d13a; d13b). In this case, the first busbar element (11a; 11b) has an opening (111a; 111b) that is formed in the first busbar element (11a; 11b) and the second busbar element (13a; 13b) has a plug-in connector (13a2; 13b2) that is integrally formed on the second busbar element (13a; 13b) and is designed to form a plug-in connection with the opening (111a; 111b) formed in the first busbar element (11a; 11b).
H01R 4/58 - Connexions conductrices de l'électricité entre plusieurs organes conducteurs en contact direct, c.-à-d. se touchant l'un l'autreMoyens pour réaliser ou maintenir de tels contactsConnexions conductrices de l'électricité ayant plusieurs emplacements espacés de connexion pour les conducteurs et utilisant des organes de contact pénétrant dans l'isolation caractérisées par la forme ou le matériau des organes de contact
B60R 16/02 - Circuits électriques ou circuits de fluides spécialement adaptés aux véhicules et non prévus ailleursAgencement des éléments des circuits électriques ou des circuits de fluides spécialement adapté aux véhicules et non prévu ailleurs électriques
H01R 25/16 - Rails ou barres omnibus pourvus de plusieurs points de connexion pour pièces complémentaires
2.
DETECTION DEVICE FOR A POSITION SENSOR AND DETECTION SYSTEM COMPRISING SUCH A DETECTION DEVICE
A detection device for a position sensor and to a detection system comprising such a detection device. The detection device comprises, in some embodiments, at least one primary winding and a secondary winding circuit. The secondary winding circuit has a plurality of secondary windings which are inductively coupled to the at least one primary winding during operation of the detection device, and the plurality of secondary windings is designed as two sinusoidal coils, each having a center tap.
G01D 5/22 - Moyens mécaniques pour le transfert de la grandeur de sortie d'un organe sensibleMoyens pour convertir la grandeur de sortie d'un organe sensible en une autre variable, lorsque la forme ou la nature de l'organe sensible n'imposent pas un moyen de conversion déterminéTransducteurs non spécialement adaptés à une variable particulière utilisant des moyens électriques ou magnétiques influençant la valeur d'un courant ou d'une tension en faisant varier l'inductance, p. ex. une armature mobile influençant deux bobines par une action différentielle
G01B 7/30 - Dispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques pour mesurer des angles ou des cônesDispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques pour tester l'alignement des axes
3.
SUPPRESSOR CHOKE CORE, SUPPRESSOR CHOKE COMPRISING SUCH A SUPPRESSOR CHOKE CORE, AND METHOD FOR FORMING A SUPPRESSOR CHOKE CORE
The present invention provides, in various aspects, a suppressor choke core, a suppressor choke comprising such a suppressor choke core, and a method for providing a suppressor choke core. In one aspect of the present invention, a suppressor choke core comprises at least two hollow-cylindrical core elements (3a, 3b), with one of the hollow-cylindrical core elements (3b) being arranged successively, at least in part, in another of the hollow-cylindrical core elements (3a), and the hollow-cylindrical core elements (3a, 3b) being permanently connected to one another so that a ferrite pipe core (3) is formed.
H01F 17/06 - Inductances fixes du type pour signaux avec noyau magnétique avec noyau refermé sur lui-même, p. ex. tore
H01F 27/26 - Fixation des parties du noyau entre ellesFixation ou montage du noyau dans l'enveloppe ou sur un support
H01F 27/255 - Noyaux magnétiques fabriqués à partir de particules
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
4.
RESONATOR CIRCUIT FOR A CONTACTLESS ENERGY TRANSMISSION SYSTEM FOR CHARGING ELECTRIC VEHICLES, AND CONTACTLESS ENERGY TRANSMISSION SYSTEM FOR CHARGING ELECTRIC VEHICLES
A resonator circuit for a contactless energy transmission system for charging electric vehicles and a contactless energy transmission system for charging electric vehicles are described. The resonator circuit may include first and second terminals, multiple windings, and first and second switching elements. The windings may be divided into first and second groups. A connection node may be arranged between the first and second groups of windings and connected via the first switching element to the first terminal, and the connection node is connected via the first group of windings to the second terminal. The second switching element may be arranged between the second group of windings and the first terminal. The first connection node may be formed in a star-shaped manner between the first group of windings, the second group of windings, and the first switching element.
B60L 53/122 - Circuits ou procédés pour entraîner la bobine primaire, c.-à-d. en alimentant la bobine en énergie électrique
H01F 27/00 - Détails de transformateurs ou d'inductances, en général
H02J 50/12 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif du type couplage à résonance
H02J 50/40 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant plusieurs dispositifs de transmission ou de réception
H04B 5/00 - Systèmes de transmission en champ proche, p. ex. systèmes à transmission capacitive ou inductive
An inductive component comprises a magnetic core, a winding, and a coil body. The coil body comprises a contact element attached to a contact strip of the coil body for electrical connection to the winding, a magnetic core receptacle in which the magnetic core is received in part, and an elongate recess formed in the contact strip and extending only in part below the magnetic core and above the contact element and extending in a longitudinally direction of the contact strip. A cover cap is attached to the contact strip and covers at least in part a side surface of the magnetic core facing the contact element. The cover cap comprises a first wall section covering at least in part the side surface of the magnetic core facing the contact element. A second wall section of the cover cap extending perpendicular to the first side surface of the magnetic core is inserted into the recess formed in the coil body, where the second wall section extends between the magnetic core and the contact element in the coil body.
The invention relates, in several illustrative embodiments, to a detection device for a position sensor and to a detection system comprising such a detection device. The detection device comprises, in some embodiments, at least one primary winding and a secondary winding circuit. The secondary winding circuit has a plurality of secondary windings which are inductively coupled to the at least one primary winding, and the plurality of secondary windings is designed as two sinusoidal coils, each having a center tap.
G01D 5/20 - Moyens mécaniques pour le transfert de la grandeur de sortie d'un organe sensibleMoyens pour convertir la grandeur de sortie d'un organe sensible en une autre variable, lorsque la forme ou la nature de l'organe sensible n'imposent pas un moyen de conversion déterminéTransducteurs non spécialement adaptés à une variable particulière utilisant des moyens électriques ou magnétiques influençant la valeur d'un courant ou d'une tension en faisant varier l'inductance, p. ex. une armature mobile
least one contact element is covered at least in part by a first wall section of the cover cap. The coil body comprises a depression which is formed below the magnetic core and in which a second wall section of the cover cap extending perpendicularly to the side surface of the magnetic core extends between the coil body and the magnetic core received in the coil body. The cover cap comprises a third wall section which is disposed opposite the second wall section and covers at least in part a side surface of the magnetic core and covers the winding at least in part.
H01F 17/04 - Inductances fixes du type pour signaux avec noyau magnétique
H01F 1/113 - Aimants ou corps magnétiques, caractérisés par les matériaux magnétiques appropriésEmploi de matériaux spécifiés pour leurs propriétés magnétiques en matériaux inorganiques caractérisés par leur coercivité en matériaux magnétiques durs substances non métalliques, p. ex. ferrites sous forme de particules dans un liant
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
9.
RESONATOR CIRCUIT FOR A CONTACTLESS ENERGY TRANSMISSION SYSTEM FOR CHARGING ELECTRIC VEHICLES, AND CONTACTLESS ENERGY TRANSMISSION SYSTEM FOR CHARGING ELECTRIC VEHICLES
Illustrative embodiments according to the invention relate to a resonator circuit (500) for a contactless energy transmission system for charging electric vehicles and to a contactless energy transmission system for charging electric vehicles. According to the embodiments, the resonator circuit (500) has a first terminal (A4), a second terminal (A3), a plurality of windings, a plurality of capacitors, a first switch element (540), and a second switch element (550). The resonator circuit (500) can be connected to a supply circuit or a rectifier via the first terminal (A4) and the second terminal (A3). The plurality of windings are divided into a first group (522) of windings and a second group (532) of windings, wherein one winding of each group (522, 532) of windings is paired with at least one respective capacitor (C3, C4, C5) of the plurality of capacitors, said capacitor being connected in series to the paired group (522, 532) of windings. Furthermore, a connection node (560) is arranged between the first group of windings (522) and the second group (532) of windings, said connection node being connected to the first terminal (A4) via the first switch element (540) and to the second terminal (A3) via the first group (522) of windings, and the second switch element (550) is arranged between the second group (532) of windings and the first terminal (A4). The first connection node (560) is formed in the shape of a star between the first group (522) of windings, the second group (532) of windings, and the first switch element (540).
B60L 53/39 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction avec activation sensible à la position des bobines primaires
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
H02J 50/12 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif du type couplage à résonance
H01F 27/00 - Détails de transformateurs ou d'inductances, en général
H04B 5/00 - Systèmes de transmission en champ proche, p. ex. systèmes à transmission capacitive ou inductive
10.
SHAPE-ADAPTIVE RETAINER FOR A CORE IMPLEMENTATION AND INDUCTIVE COMPONENT PRODUCED THEREWITH
The present invention relates to a retainer for holding a core implementation, which is used to guide a magnetic field. The retainer is shapeable such that the retainer can be adapted, at least in some parts, to the contour of the core implementation in order to compensate dimensional tolerances. The core implementation is a core having closed geometry. The winding is mounted on the retainer.
An inductive device comprises a plate-shaped ferrite core and a hybrid double-D solenoid coil which is arranged over the plate-shaped ferrite core and has a plurality of turns. The plurality of turns is grouped into at least two groups, each having at least two immediately consecutive turns which in a group have monotonically increasing or decreasing turn diameters, wherein the last turn of a group has a turn diameter that is larger than that of the first turn of the following group if the turn diameter of the turn immediately preceding the last turn within the group is smaller than the turn diameter of the last turn, or has a turn diameter that is smaller than that of the first turn of the following group if the turn diameter of the turn immediately preceding the last turn is larger than the turn diameter of the last turn.
H02J 50/12 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif du type couplage à résonance
In one aspect of the invention, an inductive component is provided, comprising a magnet core (10), at least one winding (W), and a coil body (30) that is wound with the at least one winding (W) and comprises at least one contact element (50) attached to one side (HS) of the coil body (30) for electrically connecting to the at least one winding (W) and a magnet core receiving area (32) in which the magnet core (10) is at least partly received. The inductive component (100) additionally comprises a cover cap (20) which is made of an electrically insulating material and which covers the magnet core (10) received in the coil body (30) on at least four lateral surfaces of the magnet core. A first wall section (22) of the cover cap (20) at least partly covers the magnet core (10) lateral surface facing the coil body (30) side (HS) with the at least one contact element (50). The coil body (30) has a depression which is formed below the magnet core (10) and in which a second cover cap (20) wall section extending perpendicularly to the lateral surface of the magnet core (10) extends between the coil body (30) and the magnet core (10) received in the coil body (30). The cover cap (30) has a third wall section (25) which lies opposite the second wall section, at least partly covers a lateral surface (14) of the magnet core (10), and at least partly covers the winding.
In one aspect of the invention an inductive component is provided which comprises a magnetic core (10), at least one winding (W), and a coil body (30) wound with the at least one winding (W). The coil body (30) has at least one contact element (50) attached to a contact strip (33) of the coil body (30) for electrical connection to the at least one winding (W), a magnetic core receptacle in which the magnetic core (10) is partially received, and an elongated depression (32) which is formed in the contact strip (33) and extends below the magnetic core (10) received in the magnetic core receptacle (31) and above the at least one contact element (50) and only partially extends in a longitudinal direction of the contact strip (33) along the contact strip (33). The inductive component further comprises a covering cap which is formed from an electrically insulating material and is attached to the contact strip (33) and by which a lateral surface (14) of the magnetic core (10) oriented towards the at least one contact element (50) is at least partially covered with respect to the at least one contact element (50). The covering cap (20) has a first wall portion (22) by which the lateral surface (14) of the magnetic core (10) oriented towards the at least one contact element (50) is at least partially covered by the covering cap (20) with respect to the at least one contact element (50). A second wall portion (23) of the covering cap (20) extending normally to the first lateral surface (14) of the magnetic core (10) is inserted into the depression (32) formed in the coil body (30), the second wall portion (23) extending between the magnetic core (10) and the at least one contact element (50) in the coil body (30).
According to one aspect, an inductive component is provided, which comprises a magnetic core (10), an insulation body (20) formed of an electrically insulating material and having the magnetic core (10) accommodated therein, and a coil body having at least one winding wound thereon. The insulation body (20) comprises at least two mechanically connected insulation wall sections (22, 24), which each face, at least partially, a respective side surface section (14, 16) of the magnetic core. The coil body comprises at least one contact element attached to a side surface section of the coil body and used for establishing an electric connection to the at least one winding, and a magnetic core accommodation in which the magnetic core (10) accommodated in the insulation body (20) is partially accommodated. A side surface section (14) of the magnetic core, which faces the contact element, is covered, at least partially, by an insulation wall section (24) of the insulation body (20).
A inductive component is provided, which comprises a magnetic core, an insulation body formed of an electrically insulating material and having the magnetic core accommodated therein, and a coil body having at least one winding wound thereon. The insulation body comprises at least two mechanically connected insulation wall sections, which each face, at least partially, a respective side surface section of the magnetic core. The coil body comprises at least one contact element attached to a side surface section of the coil body and used for establishing an electric connection to the at least one winding, and a magnetic core accommodation in which the magnetic core accommodated in the insulation body is partially accommodated. A side surface section of the magnetic core, which faces the contact element, is covered, at least partially, by an insulation wall section of the insulation body.
H01F 5/04 - Dispositions des connexions électriques aux bobines, p. ex. fils de connexion
H01F 27/25 - Noyaux magnétiques fabriqués à partir de bandes ou de feuillards
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
H01F 27/32 - Isolation des bobines, des enroulements, ou de leurs éléments
H01F 27/30 - Fixation ou serrage de bobines, d'enroulements ou de parties de ceux-ci entre euxFixation ou montage des bobines ou enroulements sur le noyau, dans l'enveloppe ou sur un autre support
16.
INDUCTIVE COMPONENT AND METHOD FOR PRODUCING AN INDUCTIVE COMPONENT
The invention relates, in several clear embodiments, to an inductive component (1a) and a method for producing such an inductive component. The inductive component (1a) comprises a busbar (4a) and at least one magnetic core (6a), which is formed along one portion of the busbar (4a) and surrounds the busbar (4a) in the portion at least in part, wherein the at least one magnetic core (6a) is formed as a plastic-bound magnetic core or a core made of magnetic cement.
H01F 1/26 - Aimants ou corps magnétiques, caractérisés par les matériaux magnétiques appropriésEmploi de matériaux spécifiés pour leurs propriétés magnétiques en matériaux inorganiques caractérisés par leur coercivité en matériaux magnétiques doux métaux ou alliages sous forme de particules, p. ex. de poudre comprimées, frittées ou agglomérées les particules étant isolées au moyen de substances organiques macromoléculaires
H01F 1/28 - Aimants ou corps magnétiques, caractérisés par les matériaux magnétiques appropriésEmploi de matériaux spécifiés pour leurs propriétés magnétiques en matériaux inorganiques caractérisés par leur coercivité en matériaux magnétiques doux métaux ou alliages sous forme de particules, p. ex. de poudre dispersées ou suspendues dans un liant
H01F 17/04 - Inductances fixes du type pour signaux avec noyau magnétique
H01F 17/06 - Inductances fixes du type pour signaux avec noyau magnétique avec noyau refermé sur lui-même, p. ex. tore
H01F 27/255 - Noyaux magnétiques fabriqués à partir de particules
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
H03F 1/00 - Détails des amplificateurs comportant comme éléments d'amplification uniquement des tubes à décharge, uniquement des dispositifs à semi-conducteurs ou uniquement des composants non spécifiés
H03F 3/00 - Amplificateurs comportant comme éléments d'amplification uniquement des tubes à décharge ou uniquement des dispositifs à semi-conducteurs
17.
Apparatus for monitoring a magnetic core and method for detecting a saturation behavior of a magnetic core to be monitored
An apparatus for monitoring a magnetic core, wherein the apparatus provides a measurement winding which is magnetically coupled to the magnetic core to be monitored, a comparison inductance which is electrically connected in series with the winding and an electronic processing unit which is designed to determine the saturation behavior of the magnetic core to be monitored. The electronic processing unit is configured to record a first electrical signal occurring at the measurement winding and a second electrical signal occurring at the comparison inductance in response to an electrical measurement signal applied to the measurement winding, and to determine the saturation behavior of the magnetic core to be monitored on the basis of the first and second electrical signals. This makes it possible to easily monitor the saturation behavior of a magnetic core and to reliably detect the occurrence of saturation of the magnetic core.
G01R 33/04 - Mesure de la direction ou de l'intensité de champs magnétiques ou de flux magnétiques en utilisant le principe du déclenchement périodique de flux
G01R 27/26 - Mesure de l'inductance ou de la capacitanceMesure du facteur de qualité, p. ex. en utilisant la méthode par résonanceMesure de facteur de pertesMesure des constantes diélectriques
G01R 33/12 - Mesure de propriétés magnétiques des articles ou échantillons de solides ou de fluides
G01R 33/00 - Dispositions ou appareils pour la mesure des grandeurs magnétiques
18.
INDUCTIVE COMPONENT AND SECONDARY RESONATOR DEVICE FOR INSTALLING ON AN ELECTRIC VEHICLE
The invention relates to an inductive component (100), having a planar ferrite core (110) and a hybrid double-D solenoid coil (150), which is arranged over the planar ferrite core (110) and has a plurality of windings (160). The plurality of windings (160) is grouped into at least two groups each consisting of at least two immediately consecutive windings, which in a group have monotonically increasing or decreasing winding diameters, wherein the last winding of a group has a winding diameter that is larger than that of the first winding of the following group if the winding diameter of the winding immediately preceding the last winding is smaller than the winding diameter of the last winding, or the last winding of a group has a winding diameter that is smaller than that of the first winding of the following group if the winding diameter of the winding immediately preceding the last winding is larger than the winding diameter of the last winding.
A ferrite core comprising a yoke body having a length dimension, a width dimension and a height dimension, which are oriented perpendicular to one another, the length dimension being larger than the height dimension and/or the width dimension. A lateral surface of the yoke body has provided therein a positioning structure and an alignment structure, which differs from the positioning structure, the positioning and alignment structures being spaced apart along the length dimension by 5% to 75% of the length dimension.
H01F 17/04 - Inductances fixes du type pour signaux avec noyau magnétique
H01F 27/26 - Fixation des parties du noyau entre ellesFixation ou montage du noyau dans l'enveloppe ou sur un support
H01F 41/00 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques
H01F 1/34 - Aimants ou corps magnétiques, caractérisés par les matériaux magnétiques appropriésEmploi de matériaux spécifiés pour leurs propriétés magnétiques en matériaux inorganiques caractérisés par leur coercivité en matériaux magnétiques doux substances non métalliques, p. ex. ferrites
H01F 27/255 - Noyaux magnétiques fabriqués à partir de particules
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
20.
Method for forming a frame core having a center leg for an inductive component and frame core produced accordingly
The present invention provides a method of forming a frame core (1) having a center leg (3) for an inductive component, and an accordingly formed frame core (1) having a center leg (3) and an air gap (4) in the center leg (3). The frame core (1) is formed integrally with the center leg (3), the air gap (4) being molded into the center leg (3) during the formation of the frame core (1).
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
H01F 27/255 - Noyaux magnétiques fabriqués à partir de particules
B28B 1/24 - Fabrication d'objets façonnés à partir du matériau par moulage par injection
B28B 3/00 - Fabrication d'objets façonnés en utilisant des pressesPresses spécialement adaptées à ce travail
B28B 7/18 - Moules pour la fabrication d'objets façonnés avec des cavités ou des ouvertures les ouvertures traversant l'objet de part en part
B28B 7/16 - Moules pour la fabrication d'objets façonnés avec des cavités ou des ouvertures
A coil body with a hollow housing body is provided that has on a first side an opening for the intake of a coil into the housing body along an inserting direction and a housing wall that extends between the first side of the housing body and a second side that is located opposite. The coil body further comprises multiple electric contacts and a plurality of guiding grooves that are disposed along the housing wall and that are each formed for guiding of a connection wire in order to connect a coil, which has been absorbed by the housing body, to the contacts. The contacts are thereby disposed on the second side on the housing body.
One aspect of the present invention provides an apparatus for monitoring a magnetic core, wherein the apparatus provides a measurement winding which is magnetically coupled to the magnetic core to be monitored, a comparison inductance which is electrically connected in series with the winding and an electronic processing unit which is designed to determine the saturation behaviour of the magnetic core to be monitored. The electronic processing unit is also configured to record a first electrical signal occurring at the measurement winding and a second electrical signal occurring at the comparison inductance in response to an electrical measurement signal applied to the measurement winding and to determine the saturation behaviour of the magnetic core to be monitored on the basis of the first and second electrical signals. This makes it possible to easily monitor the saturation behaviour of a magnetic core and to reliably detect the occurrence of saturation of the magnetic core.
G01R 33/12 - Mesure de propriétés magnétiques des articles ou échantillons de solides ou de fluides
G01R 27/26 - Mesure de l'inductance ou de la capacitanceMesure du facteur de qualité, p. ex. en utilisant la méthode par résonanceMesure de facteur de pertesMesure des constantes diélectriques
The transformer of the invention comprises a first coil that has three or four windings, preferably exactly three windings, a second coil, and a U-shaped core. The length of the transformer is 40 mm or less, resulting in a compact volume, for example for ignition units of luminaires, and production costs are reduced because a U-shaped core is used.
The transformer (100) according to the invention comprises a first winding (110) with two winding turns (111, 112) and a second winding (120) and a core material of non-closed core geometry comprising a first flange (131) and a second flange (132) in U-shaped arrangement. The transformer according to the invention is very compact and allows a cost-effective production of the core material.
The invention relates to a method for forming a frame core (1) having a center leg (3) for an inductive component and an accordingly formed frame core (1) having a center leg (3) and an air gap (4) in the center leg (3). The frame core (1) is formed integrally with the center leg (3), wherein the air gap (4) is pressed into the center leg (3) during the formation of the frame core (1).
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
The present invention relates to a choke with two coils and a core for interleaved applications in step-up or step-down circuits or power factor compensation circuits. The core comprises several core sections with several lateral legs and a middle leg, whereby the core is designed such, that a coupling factor k of the two coils is smaller than 3%-5%. Furthermore, the core is designed such, that the core section form two loops with the middle leg as a common section, whereby each of the two coils lies on different loops outside of the common section. The lateral legs have a cross section A1 and the middle leg for the common section has a cross section A2<2×A1.
In various aspects, a plate-shaped leakage structure as an insert in a magnetic core of an inductive component, a magnetic core having a plate-shaped leakage structure, and an inductive component. In illustrative embodiments, a plate-shaped leakage structure is provided as an insert in a magnetic core, which is passed through, along the thickness direction thereof, by at least one spacer having a very low magnetic permeability (as opposed to the rest of the material of the leakage structure). In a magnetic core according to an aspect, core legs are arranged above opposite bearing surfaces of the plate-shaped leakage structure, the plate-shaped leakage structure providing a leakage path between the core legs.
Core bodies which have an alignment structure and allow an alignment during the production of magnetic cores irrespective of production tolerances, in which the production tolerances are compensated. In illustrative embodiments a core body of ferromagnetic material comprises a crossbar having an aspect ratio of length to width greater than 1, and at least one core leg extending laterally away from the crossbar along an extension direction. An alignment recess is formed in a rear surface of the crossbar, which is arranged on a side of the crossbar opposite the core legs. A magnetic core is formed of core bodies, whereby at least one core body is provided with an alignment recess, and the core bodies are aligned relative to one another.
H01F 7/06 - Électro-aimantsActionneurs comportant des électro-aimants
H01F 27/255 - Noyaux magnétiques fabriqués à partir de particules
H01F 27/26 - Fixation des parties du noyau entre ellesFixation ou montage du noyau dans l'enveloppe ou sur un support
H01F 41/02 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants
29.
Magnetic core element, magnetic core module and an inductive component using the magnetic core module
A rod-shaped magnetic core element, having a first end with a spherical or cylindrical recess or a spherical or cylindrical connecting protrusion, and a second end with a spherical or cylindrical recess or a spherical or cylindrical connecting protrusion so that a bent connection of at least two magnetic core elements is variably adjustable. Magnetic core elements comprising spherical or cylindrical magnetic core ends of this type allow a nearly gap-free construction with little magnetic leakage due to slightly larger end surfaces in comparison with ferrite rods having beveled plane end section surfaces. The enlarged end surface of the spherical surface advantageously allows a more stable connection of individual magnetic core elements without adhesive bonding. This allows the construction of flexible, multiple-member and inexpensive rod core coils and antennae.
The present invention provides magnetic cores and a method for producing same, wherein the magnetic cores have at least two materials with different magnetic properties. The materials are selected from a ferrite material, an oxide ceramic material and a superparamagnetic material and are formed alternately in individual areas along the magnetic core.
H01F 3/10 - Dispositions composites de circuits magnétiques
H01F 27/26 - Fixation des parties du noyau entre ellesFixation ou montage du noyau dans l'enveloppe ou sur un support
H01F 1/34 - Aimants ou corps magnétiques, caractérisés par les matériaux magnétiques appropriésEmploi de matériaux spécifiés pour leurs propriétés magnétiques en matériaux inorganiques caractérisés par leur coercivité en matériaux magnétiques doux substances non métalliques, p. ex. ferrites
H01F 41/16 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour appliquer des pellicules magnétiques sur des substrats le matériau magnétique étant appliqué sous forme de particules, p. ex. par sérigraphie
32.
HIGH VOLTAGE TRANSFORMER AND WOUND COIL FORMER FOR IGNITION MODULES WITH TERMINAL PINS INTEGRAL TO THE PRIMARY WINDING
A wound coil former for an ignition transformer, such as is used for example in discharge lamps for automobiles, etc., having a primary winding in the form of a wire in conjunction with a conductor bar which is fed through the coil former. In this way, it is possible to achieve a high dielectric strength, while at the same time the required length of wire can be reduced.
A driving module for a gas discharge lamp, in particular for headlights in vehicles, comprises a suitable lamp socket, a carrier for electrical components, and an ignition transformer, wherein the component part carrier is populated at least with electrical components of an ignition unit and moreover is designed for accommodating further electrical components that are required for a self-sustaining operation of the driving module. In addition, the lamp socket is made of a high temperature resistant plastic material and has an integrated high-voltage conducting track.
H05K 13/00 - Appareils ou procédés spécialement adaptés à la fabrication ou l'ajustage d'ensembles de composants électriques
B06B 1/02 - Procédés ou appareils pour produire des vibrations mécaniques de fréquence infrasonore, sonore ou ultrasonore utilisant l'énergie électrique
34.
CURRENT-COMPENSATED INDUCTOR WITH INCREASED LEAKAGE INDUCTANCE
Current-compensated inductors have a substantially closed core, which deviates from the toroidal core design such that increased leakage flux is achieved and, at the same time, the further advantages of a conventional toroidal core geometry are maintained. In particular, the current-compensated inductors according to the invention can be produced efficiently by means of automation without subsequent process steps for fitting shunt elements being required.
The invention relates to an inductive component, in particular a storage choke, which contains a core having variable characteristics, wherein in some aspects the magnetic permeability is laterally variable, whilst in other aspects the setting of the permeability takes place additionally or alternatively by means of different materials, the composition of which can be altered if required in a dynamic manner. The invention relates in particular to a storage choke, in which a separate centre limb is provided.
An inductive component, in particular a storage inductor, has a holding region in the core material that has a bearing surface matching the contour of at least part of a winding. This produces better mechanical and thermal coupling of the self-supporting winding to the magnetic material of the core.
H01F 27/30 - Fixation ou serrage de bobines, d'enroulements ou de parties de ceux-ci entre euxFixation ou montage des bobines ou enroulements sur le noyau, dans l'enveloppe ou sur un autre support
H01F 27/32 - Isolation des bobines, des enroulements, ou de leurs éléments
The invention relates to an activation module for a gas discharge lamp, in particular for headlights in vehicles, containing a suitable lamp socket, a carrier for electrical components, and an ignition transformer, wherein the construction carrier is populated at least with electrical components of an ignition unit and moreover is designed for receiving further electrical components that are required for self-sufficient operation of the activation module. In addition, the lamp socket is made of a high temperature-resistant plastic material and has an integrated high-voltage conducting track.
B60Q 1/04 - Agencement des dispositifs de signalisation optique ou d'éclairage, leur montage, leur support ou les circuits à cet effet les dispositifs étant principalement destinés à éclairer la route en avant du véhicule ou d'autres zones de la route ou des environs les dispositifs étant des phares
F21V 23/02 - Agencement des éléments du circuit électrique dans ou sur les dispositifs d’éclairage les éléments étant des transformateurs ou des impédances
H05B 41/288 - Circuits dans lesquels la lampe est alimentée par une puissance obtenue à partir de courant continu au moyen d'un convertisseur, p. ex. par courant continu à haute tension utilisant des convertisseurs statiques comportant des dispositifs à semi-conducteurs et spécialement adaptés à des lampes sans électrodes de préchauffage, p. ex. à des lampes à décharge à haute intensité, des lampes au mercure ou au sodium à haute pression ou des lampes au sodium à basse pression
Disclosed is a position sensor, in particular a rotor position sensor, comprising a base. A track that is provided with a conducting coating is formed within the surface of the base relevant for evaluating signals. Since the track is formed within the base, the desired position-dependent modulation of the eddy current behavior is obtained by design measures, resulting in low manufacturing tolerance and reduced production costs.
G01B 7/30 - Dispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques pour mesurer des angles ou des cônesDispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques pour tester l'alignement des axes
39.
HOUSING FOR AN IGNITION TRANSFORMER, TRANSFORMER DEVICE AND BALLAST ELECTRONICS FOR A GAS DISCHARGE LAMP
A housing for an ignition transformer for a gas discharge lamp comprises a cavity designed for accommodating the ignition transformer. The cavity has an opening for inserting the ignition transformer into the housing. The housing additionally comprises a primary voltage connection, which has two primary voltage contacts arranged such that they can be soldered to a printed circuit board arranged parallel to a first side of the housing. In addition, the housing comprises a high-voltage connection, which is situated on a second side of the housing, said second side being different from the first side, and has two high-voltage contacts, each of which can be connected to a plug. The primary voltage contacts and the high-voltage contacts are fed through a wall of the cavity into the cavity and can be connected to the ignition transformer.
brevets
