Potential equalization in a control device for a motor vehicle

Abstract

An arrangement for potential equalization in a control device for a motor vehicle includes at least one electrical component on a circuit carrier, a carrier structure on which the circuit carrier is arranged, and at least one contacting element that electroconductively connects the circuit carrier to the carrier structure by way of a connecting element that forms a potential equalization. The contacting element has a bondable surface coating.

Claims

1. An arrangement for potential equalization in a control device for a motor vehicle, comprising: a carrier structure; a circuit carrier disposed on said carrier structure; at least one electrical component disposed on said circuit carrier; and at least one contact-making element protruding at least partially into said carrier structure; said at least one contact-making element connecting said circuit carrier to said carrier structure electrically conductively by way of a connecting element in order to establish potential equalization; and a bondable surface coating disposed on said contact-making element between said contact-making element and said connecting element.

2. The arrangement according to claim 1, wherein said surface coating is an electrodeposited coating or a chemically deposited coating on said contact-making element.

3. The arrangement according to claim 2, wherein said surface coating comprises a material selected from the group consisting of aluminum, copper, silver, and a compound thereof.

4. The arrangement according to claim 2, wherein said surface coating comprises a compound selected from the group consisting of nickel/gold, nickel/silver, nickel/palladium/gold and nickel/palladium/silver.

5. The arrangement according to claim 1, wherein said contact-making element is connected to said carrier structure with a force-fit or with a positively locking connection by way of a screw or rivet connection.

6. The arrangement according to claim 1, wherein said carrier structure is a part of a control device housing.

7. The arrangement according to claim 6, wherein said carrier structure is a base plate of said control device housing.

8. The arrangement according to claim 1, wherein said circuit carrier (4) is a printed circuit board.

9. The arrangement according to claim 1, wherein said circuit carrier is a printed circuit board with a ceramic substrate.

10. The arrangement according to claim 1, wherein said connecting element is a wire bond.

11. The arrangement according to claim 10, wherein said wire bond is a ground bond.

12. A control device for a motor vehicle, comprising the arrangement for potential equalization according to claim 1.

13. A method of producing an arrangement for potential equalization in a control device for a motor vehicle, the method comprising the following steps: providing a control device with a circuit carrier and a carrier structure; providing a contact-making element with a bondable surface coating, and an electrically conductive connecting element; establishing a force-fitting or positively locking connection between the contact-making element and the carrier structure, the connection being electrically conductive; and establishing an electrically conductive connection between the contact-making element and the circuit carrier by way of the connecting element.

14. The method according to claim 13, wherein the surface coating is electrodeposited or chemically deposited on the contact-making element.

15. An arrangement for potential equalization in a control device for a motor vehicle, comprising: a carrier structure; a circuit carrier disposed on said carrier structure; at least one electrical component disposed on said circuit carrier; a connecting element, said connecting element being a wire bond and said wire bond being a ground bond; at least one contact-making element protruding at least partially into said carrier structure and connecting said circuit carrier to said carrier structure electrically conductively by way of said connecting element in order to establish potential equalization; said at least one contact-making element having a bondable surface coating disposed on said contact-making element between said contact-making element and said connecting element, comprising a compound selected from the group consisting of nickel/gold, nickel/silver, nickel/palladium/gold and nickel/palladium/silver.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) The single FIGURE shows a partial cross section through an arrangement according to the invention.

DESCRIPTION OF THE INVENTION

(2) A control device 1 for a motor vehicle, in particular a transmission control device, comprises a housing for accommodating an electrical component 6, a carrier structure 2, at least one side wall 8 and a cover, not shown here. The base plate 2 can also be integrally formed with the side wall 8.

(3) The electrical component 6 is arranged, for example adhesively bonded or soldered, on a circuit carrier 4, for example a printed circuit board. The circuit carrier 4 for its part is arranged, in particular adhesively bonded, on the carrier structure, in particular a dimensionally stable base plate 2 which is composed of diecast aluminum.

(4) In this case, the contact-making element is designed as a screw 7 in particular a hex head screw with a screw head having several different defined surfaces. In the FIGURE, only the top face of the screw head is provided with a bondable surface coating 5. In this case, the coated screw 7 is screwed into a corresponding threaded opening in the base plate 2 in a force-fitting and electrically conductive manner. In the FIGURE, the screw 7 is screwed into the threaded opening in the base plate 2 in such a way that, after the force-fitting connection has been established, the screw head is at a distance from the base plate 2. However, the screw head could also be screwed entirely into the base plate 2, as a result of which the electrically conductive surface between the screw 7 and the base plate 2 would be further increased.

(5) An alternative type of connection between the contact-making element 7 and the base plate 2 to screwing would be, for example, riveting, soldering, welding or adhesive bonding.

(6) The circuit carrier 4 is electrically conductively connected to the bondable surface coating 5 of the screw 7 by means of the connecting element 3. In particular, the connecting element is designed as a thick wire bond 3 which is composed of aluminum. However, any other type of wire or strip connection would also be possible as the connecting element 3, for example in the form of a thin aluminum wire, gold wire, copper wire, small copper strip or small aluminum strip.

(7) According to the invention, metal or non-metal materials and materials which have not been able to be bonded to date and are electrically conductive can also be connected to one another at a defined potential and with a low contact resistance with process reliability or a greater degree of process reliability.

(8) Differences in the material of housing components which are to be connected have significantly less influence on the bonding process in this case.

(9) It is not necessary to specially mechanically process, for example mill, any region of a housing component in an extra step in order to be able to bond directly onto said region. Potential connection or potential equalization by several of these contact-making elements at various points on the housing is also possible.