DE3609040A1 - Electrical wound capacitor having reduced intrinsic inductance - Google Patents

Abstract

The invention relates to an electrical wound capacitor having reduced intrinsic inductance, which is installed in a housing (10) and whose winding (2) is arranged on a core tube (4), and whose external connections (22, 24) are connected to electrodes via connecting elements (16, 18) which are arranged symmetrically, essentially superimposed on one another and insulated from one another. According to the invention, the connecting elements (16, 18) and the external connections (22, 24) are constructed as a low-inductance rail system and merge into the connecting elements (16, 18) without any transition. A wound capacitor is thus obtained having reduced intrinsic inductance. <IMAGE>

Description

The invention relates to an electrical winding capacitor with reduced self-inductance, which in a housing installed and its winding on a core tube is arranged, and its outer connections over Connection elements that are symmetrical and essentially arranged one above the other and isolated from each other are connected to the electrodes.

Such a capacitor is from DE-OS 34 36 425 known. With such capacitors, the inductance is Activity proportional to the winding width and smaller than at conventional capacitors. Then there is the inductance of the connection elements from the winding to the contact level of the outer connections. Typical values are between 1 and 3 nH / mm inductance per unit length, usual Cable gaps are included in this range of values. Capacitors with one winding reach with a wic 60 mm and an inductance of approx. 30 nH. There is also the self-inductance with conventional condensers sators greater than 100 nH.

There are now use cases, e.g. when using a Be damping capacitor for GTO thyristors (gate turn-off Thyristor), where the inductance values mentioned are too high are. Attenuation capacitors are AC voltage con capacitors that ge parallel to semiconductor devices are switched and at these unwanted voltage peaks suppress or dampen. This is particularly the case with new semiconductor devices, e.g. GTO thyristors, the lowest possible inductance of the attenuator tion capacitor required.

The invention is based on the object, a Kon to further develop the capacitor of the type mentioned at the beginning, that it has a reduced self-inductance.

This object is achieved in that the connecting ele elements and the outer connections to one building unit are united, with the outer An conclusions formed as low-induction railing are that go seamlessly into the connection elements.

In the winding capacitor according to the invention, the outer connections are made using rail technology. One rail each of the external connections is flat if, like the connection elements, essentially opaque and arranged one above the other and isolated from each other. These parallel rails of the outer connections go seamlessly into the connection elements, so that the outer connections and the connection elements one Form unit. This ensures that the outer Ren connections, like the connection elements, never are inductive. This gives you a winding condenser sator with reduced self-inductance.

In an advantageous embodiment of the winding cone the capacitor winding consists of concentric partial kapa wound on one another and connected in series capacities separated by insulating separating foils, and the connection elements of the assembly are as concen trical washers formed, the inner diameter the respective assigned inner diameter of the part capacity corresponds. Reduced by this design one also the self-inductance of the capacitor wic kels and receives through the executed in rail technology outer connections a winding capacitor with smaller Inductance.  

In a further advantageous embodiment of the Winding capacitor is the unit in each case from the external connections and the connection elements, formed as a strip conductor, one of the two strips conductor is provided with a breakthrough, the breakthrough knife is larger than the diameter of an associated Winding the capacitor. So you get a unit Double busbar with integrated capacitor, the be can be arranged in external railings.

To further explain the invention reference is made to the Drawing referred to in the an embodiment of the electrical winding capacitor according to the invention is illustrated schematically.

Fig. 1 shows a sectional view of the winding capacitor according to the invention, in

Fig. 2 is a sectional view of an advantageous embodiment of the wound capacitor illustrated and the

Fig. 3 shows a further advantageous embodiment of the wound capacitor.

In Fig. 1 a sectional view is shown of a winding capacitor, the winding is wound on a core tube 4 2. The end faces of the winding 2 are each provided with end contact faces 6 and 8 . This winding 2 is arranged centrally in a housing 10 , the end contact surfaces 6 being conductively connected to the housing base 12 . In addition, the housing 10 is provided with an annular disk-shaped edge 14 . This housing 10 with the annular disk-shaped edge 14 forms a connection element 16 of the wound capacitor. As a second connection element 18 , a circular disc is provided, which is the electrically conductive verbun with the front contact surfaces 8 . The two connection elements 16 and 18 are essentially arranged one above the other and insulated from each other by means of an insulating ring 20 . Each of the circuit elements 16 and 18 is connected to an outer connection 22 and 24 to form a structural unit. The outer connections 22 and 24 each consist of two flat rail legs 26 and 28 or 26 'and 28 ', which are arranged at right angles to each other. In addition, the flat rail legs 26 and 26 'of the outer connections 22 and 24 are substantially opaque and arranged one above the other and against each other by means of insulation 30 . This parallel guided flat rails angle 26 and 26 'of the outer connections 22 and 24 go seamlessly into the connection elements 16 and 18 . This design of the outer connections 22 and 24 in connection with the connection elements 16 and 18 ensures that at every point at which a current flows, an opposite current flows in a parallel magnetically closely coupled conductor. As a result, the magnetic fields of the two currents cancel each other out and the inductance has almost disappeared.

FIG. 2 shows a sectional view of an advantageous embodiment of the wound capacitor. The capacitor winding 2 consists of two partial windings 3 and 3 ', which are wound concentrically on the core tube 4 arranged in the housing 10 and are separated from one another by a separating layer 5 and 5 '. The partial windings 3 and 3 'are connected to one another via the end contact surfaces 6 and thus connected in series. At the end layers separated by the separating layers 5 and 5 'layers 8 and 8 ', metallic annular disks 32 and 34 are contacted as connection elements 16 and 18 . The ring discs 32 and 34 are arranged concentrically with the core tube 4 . The two connection elements 16 and 18 are arranged symmetrically to each other with the smallest possible distance. The two ring disks 32 and 34 are electrically insulated from one another by means of insulation 30 . The two formed as ring washers 32 and 34 to circuit elements 16 and 18 are also, as in Fig. 1, connected to external connections 22 and 24 to form a structural unit. This configuration of the winding 2 further reduces the self-inductance of the winding capacitor.

In FIG. 3, another embodiment of the winding shown capacitor. The winding 2 , which is arranged in the housing 10 , is integrated in a double busbar 36 . The double busbar 36 consists of two parallel to each other and by means of an insulation 30 ge mutually insulated arranged band conductor 38 and 40th The strip conductor 40 is seen with an opening 42 ver. The diameter of the opening 42 is larger than the diameter of the winding 2 . The winding 2 is connected on the one hand via the end contact surface 8 to the strip conductor 38 and on the other hand via the end contact surface 6 and the housing 10 to the other strip conductor 40 . So you get a unit double track with integrated capacitor, which has a reduced self-inductance.

Claims (5)

1. Electrical winding capacitor with reduced self-inductance, which is installed in a housing ( 10 ) and whose winding ( 2 ) is arranged on a core tube ( 4 ), and whose outer connections ( 22 , 24 ) via connection elements ( 16 , 18 ), which are arranged symmetrically and essentially overlapping one another and insulated from one another, are connected to the electrodes, characterized in that the connection elements ( 16 , 18 ) and the outer connections ( 22 , 24 ) are each connected to form a structural unit, the outer connections ( 22 , 24 ) are designed as a low induction displacement, which go seamlessly into the connection elements ( 16 , 18 ). 2. Electrical winding capacitor according to claim 1 with a capacitor winding ( 2 ) consisting of concentrically wound on one another, series-connected partial winding ( 3 , 3 '), which are separated by insulating separating foils ( 5 , 5 '), characterized in that the Connection elements ( 16 , 18 ) of the construction unit are designed as concentric annular disks ( 32 , 34 ), the inside diameter of which corresponds to the respective assigned inside diameter of the partial winding ( 3 , 3 '). 3. Electrical winding capacitor according to claim 1, characterized in that the housing ( 10 ) serves as a coaxial return conductor of a connection element ( 16 ) of the capacitor. 4. Electrical winding capacitor according to claim 1, characterized in that each unit is designed as a strip conductor ( 38, 40 ), one of the two strip conductors ( 40 ) having an opening ( 42 ) whose diameter is larger than the diameter an associated winding ( 2 ) of the capacitor. 5. Electrical winding capacitor according to claim 3 and 4, characterized in that the one electrode of the winding ( 2 ) through the opening ( 42 ) with the strip conductor behind it (38) and the other electrode of the winding ( 2 ) via the housing ( 10 ) with the tape conductor (40) provided with an opening ( 42 ) are connected ver.