Circuit arrangement for vehicles and use of a circuit arrangement

The invention claimed is: 1. A vehicle circuit arrangement comprising: a first metal circuit board; a second metal circuit board; at least one first metal carrier plate electrically connected with at least the first circuit board by means of at least one first semiconductor device and electrically connected with at least the second circuit board by means of at least one second semiconductor device such that the carrier plate and the circuit boards form an electrical three-pole, wherein the at least one first metal carrier plate is spaced electrically insulated from the first and second circuit boards; wherein the carrier plate is short circuit with a respective one of a power terminal of the first and second semiconductor devices, wherein the respective power terminal is electrically connected with a metal coating arranged directly on the carrier plate; and wherein the first and second circuit board include conductive tracks, wherein a power terminal of a respective first and second semiconductor device is short circuited with a contact pad that is spaced from the conductive tracks, wherein the contact pad is arranged in a contact area, which is arranged as a window-like opening in an insulating layer of the circuit board, and a switching terminal of the respective first and second semiconductor is short circuited with a respective conductive track. 2. Vehicle circuit arrangement according to claim 1 , wherein the electrical three-pole is set up as at least one of the circuits for one of A) electrical battery safety terminal, B) starting current limit, C) on-board power supply stabiliser, D) Q-diode, E) protection against battery overcharging. 3. Vehicle circuit arrangement according to claim 1 , wherein during operation, the carrier plate carries a first potential of the three-pole and the circuit board carries two different potentials that are different from the first potential. 4. Vehicle circuit arrangement according to claim 1 wherein the circuit boards are electrically insulated from each other. 5. Vehicle circuit arrangement according to claim 1 wherein the at least one first semiconductor device forms a switch or a diode between the carrier plate and the first circuit board. 6. Vehicle circuit arrangement according to claim 1 wherein the at least one first semiconductor device is formed as a transistor. 7. Vehicle circuit arrangement according to claim 1 wherein at least one of the circuit boards bears two contacts of its respective semiconductor device that are electrically separated from each other and that the carrier plate bears a contact of the respective semiconductor device. 8. Vehicle circuit arrangement according to claim 1 wherein the carrier plate has a shared electrical potential with the semiconductor device that respectively connects a contact of the carrier plate with the circuit board. 9. Vehicle circuit arrangement according to claim 1 wherein during operation, the carrier plate carries exactly one electrical potential. 10. Vehicle circuit arrangement according to claim 1 wherein at least the first circuit board has a common electrical potential with a connection of the at least one first semiconductor device, and that an electrical potential is borne on the circuit board to control the semiconductor device. 11. Vehicle circuit arrangement according to claim 1 wherein the at least one first semiconductor device mechanically connects the carrier plate with the first circuit board. 12. Vehicle circuit arrangement according to claim 1 , wherein the carrier plate is sandwiched between the first and second circuit boards, and/or the carrier plate and the first and second circuit boards are arranged substantially parallel to each other at least along a surface. 13. Vehicle circuit arrangement according to claim 1 , wherein the carrier plate and/or the circuit boards are dimensionally stable and/or resistant to bending and/or formed from a solid material and/or a monolithic material. 14. Vehicle circuit arrangement according to claim 1 , wherein the carrier plate and/or the circuit boards are coated with an insulation layer. 15. Vehicle circuit arrangement according to claim 1 , wherein the carrier plate and the circuit boards are both encapsulated in a common casing and respectively a metal contact lug that is guided out of the casing. 16. Vehicle circuit arrangement according to claim 1 , wherein the carrier plate and the circuit boards are formed from aluminium and/or copper or alloys thereof. 17. Vehicle circuit arrangement according to claim 1 , wherein the carrier plate and the circuit boards respectively have a metal contact lug on front end. 18. Vehicle circuit arrangement according to claim 17 , wherein the carrier plate and the circuit boards are at least partially tin-plated, particularly in the area of the contact lugs. 19. Vehicle circuit arrangement according to claim 17 , wherein the contact lug of the carrier plate is arranged at an end facing away from the metal contact lugs of the circuit boards. 20. Vehicle circuit arrangement according to claim 1 , wherein the carrier plate and the circuit boards are arranged on a common metal substrate, with an electrically separating layer arranged between the substrate and the carrier plate and the circuit boards. 21. Vehicle circuit arrangement according to claim 20 , wherein the separating layer is a thermally-conductive layer.