DE102014110053A1 - Electric codenser - Google Patents

Abstract

The invention relates to an electrical capacitor having a capacitance device (7), which is designed to form an electrical capacitor, and having an electrically conductive in the direction of a first axis (X) extending with the capacitor means (7) electrically connected first and second connection element ( 3, 4) for the electrical connection of the electrical capacitor (1), and with a capacitor (7) enclosing the housing (2), wherein the first and second connection element (3, 4) are arranged electrically isolated from each other and through the housing (2 ), wherein the second connection element (4) is formed as a tube and a first and second tube opening (20, 21), wherein the first connection element (3) through the first and second tube opening (20, 21) passes therethrough , The invention provides an electrical capacitor (1) having a low inductance.

Description

The invention relates to an electrical capacitor.

Electrical capacitors have, physically, not just a desired capacitance but, like any other electrical device, always an inductance, which is also commonly referred to as a parasitic inductance. Particularly in electrical capacitors used in power electronics, it is desirable to use e.g. to avoid high switching overvoltages on the power semiconductor switches in electrical switching operations of power semiconductor switches that the capacitors have the lowest possible inductance.

For the electrical connection of the capacitors, customary capacitors each have two electrically conductive connecting elements arranged side by side and electrically insulated from one another.

It is an object of the invention to provide an electrical capacitor having a low inductance.

This object is achieved by an electrical capacitor having a capacitance device, which is designed to form an electrical capacitance, and having an electrically conductive in the direction of a first axis extending electrically connected to the capacitor means first and second connection element for electrically connecting the electrical capacitor, and with a housing enclosing the capacitance device, wherein the first and second connection element are electrically insulated from each other and extend through the housing to the outside, wherein the second connection element is formed as a tube and having a first and second tube opening, wherein the first connection element through the first and second tube opening passes therethrough.

Advantageous embodiments of the invention will become apparent from the dependent claims.

It proves to be advantageous if the first and second connection element are arranged coaxially with respect to the first axis, since then the arrangement of the connection elements formed in one another has a particularly low inductance.

Furthermore, it proves to be advantageous if the capacitance device for forming an electrical capacitance has an electrically conductive first and second layer arranged circumferentially around the first connection element, wherein between the first and second layer an electrically nonconductive element arranged circumferentially around the first connection element Insulating layer is arranged, wherein the first connection element, the first and second layer and the insulating layer are arranged coaxially with respect to the first axis, wherein an arranged inside the housing axial first end portion of the first connection element with the first layer is electrically connected and one inside the housing arranged axial first end portion of the second connection element is electrically conductively connected to the second layer. As a result, the structure of the capacitor arranged in the interior of the housing of the capacitor also has a particularly low inductance.

Furthermore, it proves to be advantageous if the first end region of the first connection element is electrically conductively connected to the first layer by the first end region of the first connection element being connected to an electrically conductive first contact plate and the first contact plate being connected to the first layer. As a result, the structure of the capacitor arranged in the interior of the housing of the capacitor has a particular low inductance.

Furthermore, it proves to be advantageous if the first contact plate is rotationally symmetrical with respect to the first axis. As a result, the structure of the capacitor arranged in the interior of the housing of the capacitor has a particularly low inductance.

Furthermore, it proves to be advantageous if the first end region of the second connection element is electrically conductively connected to the second layer by the first end region of the second connection element being connected to an electrically conductive second contact plate and the second contact plate being connected to the second layer. As a result, the structure of the capacitor arranged in the interior of the housing of the capacitor has a particularly low inductance.

Furthermore, it proves to be advantageous if the second contact plate is rotationally symmetrical with respect to the first axis. As a result, the structure of the capacitor arranged in the interior of the housing of the capacitor has a particularly low inductance.

Furthermore, it proves to be advantageous if an axial second end region of the first connection element arranged outside the housing has a thread. This allows a reliable electrical and mechanical connection of the capacitor to an external element.

Furthermore, a circuit device proves to have an electrical capacitor according to the invention and an electrical connection device, wherein the connection device has an electrically conductive first plate, an electrically conductive second plate and an electrically nonconductive insulating layer arranged between the first and second plate, wherein the electrical connection device is a Having through the first and second plate and through the insulating layer of the connecting device extending recess, wherein the first connection element extends through the recess, wherein the first connection element with the first plate and the second connection element to the second plate is electrically connected, as advantageous , As a result, a special low-inductance circuit device is created.

Furthermore, it proves to be advantageous if a nut is screwed onto the thread of the first connection element, wherein the electrical connection device is arranged between the second connection element and the nut and the nut presses the connection device against the second connection element. As a result, a reliable electrical and mechanical connection of the electrical capacitor to the connecting device is realized in a simple manner.

An embodiment of the invention is illustrated in the figures and will be explained in more detail below. Showing:

1 a sectional view of a circuit device with an inventive electrical capacitor and an electrical connection means and

2 a schematic perspective view of an electrical capacitor according to the invention, wherein the housing of the capacitor is not shown and the capacitance means only indicated.

In 1 is a sectional view of a circuit device 19 , which is an electrical capacitor according to the invention 1 and an electrical connection device 12 has shown. In 2 is a schematic perspective view of the electrical capacitor according to the invention 1 shown, wherein the housing 2 of the capacitor 1 not and the capacity facility 7 of the capacitor 1 only indicated is shown.

The electrical capacitor according to the invention 1 has a capacity device 7 , which is designed to form an electrical capacitance and an electrically conductive in the direction of a first axis X extending first and second with the capacitor means 7 electrically connected connection element 3 and 4 for electrical connection of the electric capacitor 1 to an external element. The first and second connection element 3 and 4 indicate when the capacity device 7 electrically charged, a different electrical polarity. Furthermore, the capacitor has 1 a capacity device 7 enclosing housing 2 on, wherein the first and second connection element 3 and 4 through the housing 2 through to the outside. The first and second connection element 3 and 4 in such a way pass through a housing wall of the housing 2 into the housing 2 surrounded space. Preferably, the housing has 2 a pot-shaped, an opening 22 having the first housing part 2a and a plate-shaped second housing part 2 B on, that's the opening 22 of the first housing part 2a closes. The housing 2 preferably has a cylindrical shape. The housing 2 or parts of the housing 2 can also be in the form of a potting compound. The housing 2 preferably consists of an electrically non-conductive material, such as plastic.

The capacitor 1 is preferably formed as a film capacitor. In the context of the embodiment, the capacitance device 7 , for forming an electrical capacitance, one around the first connection element 3 circumferentially arranged, electrically conductive first and second layers 8th and 9 on, between the first and second layers 8th and 9 one around the first connection element 3 circumferentially arranged, electrically non-conductive insulation layer 10 is arranged, wherein the first connection element 3 , the first and second layer 8th and 9 and the insulation layer 10 are arranged coaxially with respect to the first axis X. The electrically conductive first and second layer 8th and 9 are preferably respectively applied to a respective electrically non-conductive film, wherein the two films including the arranged on their respective electrically conductive layer placed one on the other in the direction of the circumferential direction U about the first connection element 3 are arranged wound. The two electrically non-conductive films form the insulating layer 10 out. Between the capacity facility 7 and the first connection element 3 is preferably an electrically non-conductive support tube 11 arranged.

The first and second connection element 3 and 4 are arranged isolated from each other electrically. The second connection element 4 is formed as a tube and has a first and second tube opening 20 and 21 on, wherein the first connection element 3 through the first and second pipe openings 20 and 21 passes through. The first connection element 3 thus runs inside the second connecting element 4 through the second connection element 4 therethrough. The inventive arrangement of the connection elements have the connection elements of the capacitor 1 a, compared to the otherwise commonly used in the art side by side connecting elements, significantly reduced inductance. In this way, the electric capacitor 1 compared to conventional technology capacitors on a lower inductance.

If, as in the embodiment, the first and second connection element 3 and 4 are arranged coaxially with respect to the first axis X, the arrangement of the connecting elements formed in one another has a particularly low inductance.

The first connection element 3 has one inside the case 2 arranged axial first end portion A and one outside the housing 2 arranged axial second end portion B on. The second connection element 4 has one inside the case 2 arranged axial first end portion C and arranged outside the housing axial second end portion D.

Preferably, the first end portion A of the first connection element 3 in particular, as in the embodiment, an axial first end A 'of the first connection element 3 , with the first layer 8th electrically connected and the first end portion C of the second connection element 4 , in particular as in the embodiment, an axial first end C 'of the second connection element 4 , is with the second layer 9 electrically connected. This also indicates the inside of the housing 2 arranged structure of the electric capacitor 1 a special low inductance.

In the context of the embodiment, the first end region A of the first connection element 3 , in particular the axial first end A 'of the first connection element 3 , with the first layer 8th electrically conductively connected by the first end portion A of the first connection element 3 , in particular the axial first end A 'of the first connection element 3 , with an electrically conductive first contact plate 5 is connected and the first contact plate 5 with the first layer 8th , in particular with one of the first contact plate 5 facing axial end 8th' the first layer 8th , connected is. The first contact plate 5 is preferably at least 50%, in particular at least 80%, in particular 100% of the first contact plate 5 facing surface of the axial end 8th' the first layer 8th connected. As a result, a homogeneous current flow in the first layer 8th achieved. The respective compounds may be formed, for example, as solder joints. Preferably, the first contact plate 5 formed with respect to the first axis X rotationally symmetrical. In the embodiment, the first contact plate 5 a circular shape.

Furthermore, in the context of the exemplary embodiment, the first end region C of the second connection element 4 , in particular the axial first end C 'of the second connection element 3 , with the second layer 9 electrically connected by the second end portion C of the second connection element 3 , in particular the axial second end C 'of the second connection element 4 , with an electrically conductive second contact plate 6 is connected and the second contact plate 6 with the second layer 9 , in particular with one of the second contact plate 6 facing axial end 9 ' the second layer 9 connected is. The second contact plate 6 is preferably at least 50%, in particular at least 80%, in particular 100% of the second contact plate 6 facing surface of the axial end 9 ' the second layer 9 connected. As a result, a homogeneous current flow in the second layer 9 achieved. The respective compounds may be formed, for example, as solder joints. Preferably, the second contact plate 6 formed with respect to the first axis X rotationally symmetrical. In the embodiment, the second contact plate 6 a circular shape.

Preferably, one outside the housing 2 arranged axial second end portion B of the first connection element 3 a thread 17 , in particular an external thread, on. The thread 17 is preferably used for fastening and electrical connection of the electrical capacitor 1 to an external element, in the context of the embodiment in the form of the electrical connection device 12 is trained.

The electrical connection device 12 has an electrically conductive first plate 13 , an electrically conductive second plate 14 and one between the first and second plates 13 and 14 arranged electrically non-conductive insulation layer 15 on, wherein the electrical connection device 12 one through the first and second plate 13 and 14 and through the insulation layer 15 the connection device 12 passing recess 16 having, wherein the first connection element 3 through the recess 16 passes through, wherein the first connection element 3 with the first plate 13 and the second connection element 4 with the second plate 14 is electrically connected. It should be noted that the electrical connection means may also be in the form of a printed circuit board, in which case the first and second plates are respectively in the form of an electrically conductive layer of the printed circuit board. The electrical connection device 12 is generally electrically connected to power semiconductor switches (not shown).

In the context of the embodiment is on the thread 17 of the first connection element 3 a nut 18 screwed on, wherein the electrical connection device 12 between the second connection element 4 and the nut 18 is arranged and the nut 18 the connection device 12 against the second connection element 4 , especially against the outside of the case 2 arranged axial second end D 'of the second connection element 4 suppressed. In the exemplary embodiment is thus the second connection element 4 with the second plate 14 electrically connected by the second end D 'of the second connection element 4 with the second plate 14 is connected, and the first connection element 3 is with the first plate 13 electrically connected by the first connection element 3 over the nut 18 which in the embodiment consists of an electrically conductive material (eg metal), with the first plate 13 connected is.

Claims (10)

Electric capacitor with a capacitor device ( 7 ), which is designed to form an electrical capacitance, and with an electrically conductive in the direction of a first axis (X) extending with the capacitor means ( 7 ) electrically conductively connected first and second connection element ( 3 . 4 ) for electrical connection of the electrical capacitor ( 1 ), and with one the capacity device ( 7 ) enclosing housing ( 2 ), wherein the first and second connection element ( 3 . 4 ) are electrically isolated from each other and through the housing ( 2 ) extend to the outside, wherein the second connection element ( 4 ) is formed as a tube and a first and second tube opening ( 20 . 21 ), wherein the first connection element ( 3 ) through the first and second tube openings ( 20 . 21 ) passes through. Electrical capacitor according to claim 1, characterized in that the first and second connection element ( 3 . 4 ) are arranged coaxially with respect to the first axis (X). Electric capacitor according to one of the preceding claims, characterized in that the capacitor device ( 7 ) for forming an electrical capacitance, one around the first connection element ( 3 ) circumferentially arranged, electrically conductive first and second layer ( 8th . 9 ), wherein between the first and second layer ( 8th . 9 ) one around the first connection element ( 3 ) circumferentially arranged, electrically non-conductive insulating layer ( 10 ), wherein the first connection element ( 3 ), the first and second layers ( 8th . 9 ) and the insulation layer ( 10 ) are arranged coaxially with respect to the first axis (X), one inside the housing ( 2 ) arranged axial first end portion (A) of the first connecting element ( 3 ) with the first layer ( 8th ) is electrically conductively connected and one inside the housing ( 2 ) arranged axial first end portion (C) of the second connection element ( 4 ) with the second layer ( 9 ) is electrically connected. Electric capacitor according to Claim 3, characterized in that the first end region (A) of the first connecting element (A) 3 ) with the first layer ( 8th ) is electrically conductively connected by the first end region (A) of the first connecting element ( 3 ) with an electrically conductive first contact plate ( 5 ) and the first contact plate ( 5 ) with the first layer ( 8th ) connected is. Electric capacitor according to claim 4, characterized in that the first contact plate ( 5 ) is rotationally symmetrical with respect to the first axis (X). Electrical capacitor according to claim 4 or 5, characterized in that the first end region (C) of the second connection element ( 4 ) with the second layer ( 9 ) is electrically conductively connected by the first end region (C) of the second connecting element ( 4 ) with an electrically conductive second contact plate ( 6 ) and the second contact plate ( 6 ) with the second layer ( 9 ) connected is. Electrical capacitor according to claim 6, characterized in that the second contact plate ( 6 ) is rotationally symmetrical with respect to the first axis (X). Electric capacitor according to one of the preceding claims, characterized in that an outside of the housing ( 2 ) arranged axial second end region (B) of the first connection element ( 3 ) a thread ( 17 ) having. Circuit device with an electrical capacitor ( 1 ) according to one of claims 1 to 8 and with an electrical connection device ( 12 ), wherein the connection device ( 12 ) an electrically conductive first plate ( 13 ), an electrically conductive second plate ( 14 ) and one between the first and second plates ( 13 . 14 ) arranged electrically non-conductive insulating layer ( 15 ), wherein the electrical connection device ( 12 ) through the first and second plates ( 13 . 14 ) and through the insulation layer ( 15 ) of the connection device ( 12 ) passing through recess ( 16 ), wherein the first connection element ( 3 ) through the recess ( 16 ), wherein the first connection element ( 3 ) with the first plate ( 13 ) and the second connection element ( 4 ) with the second plate ( 14 ) is electrically connected. Circuit device according to claim 9, wherein the circuit device ( 19 ) has an electrical capacitor according to claim 8, wherein on the thread ( 17 ) of the first connection element ( 3 ) a nut ( 18 ) is screwed, wherein the electrical connection device ( 12 ) between the second connection element ( 4 ) and the nut ( 18 ) is arranged and the nut ( 18 ) the connection device ( 12 ) against the second connection element ( 4 ) presses.

Images