The invention relates to a motor vehicle battery sensor element comprising a resistor element 2 and at least two spatially separated electric contacts 16 positioned on the resistor element 2. To increase the measuring accuracy and to reduce the temperature variance, it is proposed that the resistor
The invention relates to a motor vehicle battery sensor element comprising a resistor element 2 and at least two spatially separated electric contacts 16 positioned on the resistor element 2. To increase the measuring accuracy and to reduce the temperature variance, it is proposed that the resistor element 2 along with the electric contacts 16 is coated with a metal coating 8.
대표청구항▼
1. A motor vehicle battery sensor element comprising: a resistor element; andat least two spatially separated electrical contacts positioned on the resistor element, wherein the resistor element along with the electrical contacts is coated with a metal coating, such that the thermoelectric potential
1. A motor vehicle battery sensor element comprising: a resistor element; andat least two spatially separated electrical contacts positioned on the resistor element, wherein the resistor element along with the electrical contacts is coated with a metal coating, such that the thermoelectric potential between the electrical contacts and the resistor element is short-circuited via the coating. 2. The motor vehicle battery sensor element of claim 1, wherein the coating is a tin coating. 3. The motor vehicle battery sensor element of claim 1, wherein the thermoelectric potential between the electrical contacts and the resistor element is between 0.1 μV/K and 1 μV/K. 4. The motor vehicle battery sensor element of claim 1, wherein the coating has a thickness of between 1 μm and 10 μm. 5. The motor vehicle battery sensor element according to claim 1, wherein the resistor element in the temperature range from 20° C. to 50° C. has a temperature coefficient in the range 10−6 to 10. 6. The motor vehicle battery sensor element of claim 1, wherein the resistor element has a temperature coefficient compensating for the temperature coefficient of the coating such that the effect of the temperature coefficient on the overall resistance is essentially compensated. 7. The motor vehicle battery sensor element according to claim 1, wherein the electrical contacts are made from a non-ferrous metal, in particular copper. 8. The motor vehicle battery sensor element of claim 1, wherein the resistor element is made from two flat parts connected with each other together by a material closure. 9. The motor vehicle battery sensor element of claim 1, wherein a first flat part is a resistance piece in the form of a measuring resistor and a second flat part is a connection piece made from a non-ferrous metal. 10. The motor vehicle battery sensor element of claim 1, wherein the resistor element is at least in part made from one or more of NiCu30Fe, CuMn12Ni, Cu,Ni30Mn, NiFe30, CuNi23Mn, CuMn7Sn, CuNi15, CuNi10, CuMn3, CuNi6, Ni99.6, Ni99.4Fe1 Ni99.98, CuNi2, CuNi1, E-Cu57 and W. 11. The motor vehicle battery sensor element of claim 1, wherein the resistor element is connected with a battery pole clip by a material closure. 12. The motor vehicle battery sensor element of claim 1, wherein the resistor element is connected with a power conductor leading to consumers by a material closure. 13. The motor vehicle battery sensor element of claim 1, wherein the electrical contacts are in the form of flat or round conductors positioned flat on the surface of the resistor element. 14. The motor vehicle battery sensor element of claim 1, wherein the electrical contacts are positioned essentially orthogonally to the direction of the current in the resistor element on the surface of the resistor element. 15. The motor vehicle battery sensor element of claim 1, wherein the ends of the electrical contacts are formed to accommodate an integrated circuit which assesses at least the electrical voltage between the contacts. 16. The motor vehicle battery sensor element of claim 1, wherein the electrical contacts are soldered to the integrated circuit. 17. The motor vehicle battery sensor element of claim 1, wherein the electrical contacts have a spatial distance of 1 mm-50 mm, preferably 5 mm-10 mm. 18. The motor vehicle battery sensor element of claim 1, wherein the electrical contacts are positioned on at least one of A) in the area of the resistance piece,B) the transitions between the resistance piece and the connection pieces, andC) the connection pieces. 19. A method for producing a motor vehicle battery sensor element comprising: arranging of two spatially separated electrical contacts on a resistor element, electrically connecting of the contacts with the resistor element; andmetal coating of the contacts together with the resistor element, such that the thermoelectric potential between the electrical contacts and the resistor element is short-circuited via the coating. 20. The method of claim 19, further comprising tinning of the electrical contacts together with the resistor element. 21. The method of claim 19, further comprising metal coating of the electrical contacts together with the resistor element by at least one of immersion, galvanization, and powder coating.
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