Passive current sensor with simplified geometry

What is claimed is: 1. A passive current sensor, comprising: a pair of electrically conductive busbars; a shunt resistor electrically connecting the busbars; a support having a first pair of voltage drop measuring contacts separate from the busbars, at least one of the voltage drop measuring contacts is attached to each of the busbars and forms a direct electrical contact between the at least one voltage drop measuring contact and the busbar; and a pair of temperature measuring contacts, each of the temperature measuring contacts is electrically insulated from the busbars and the shunt resistor. 2. The passive current sensor of claim 1 , further comprising a second pair of voltage drop measuring contacts, one of the second pair of voltage drop measuring contacts is directly electrically and mechanically connected to a first busbar of the busbars and another of the second pair of voltage drop measuring contacts is directly electrically and mechanically connected to a second busbar of the busbars. 3. The passive current sensor of claim 1 , wherein at least one of the busbars has an elevation for direct electrical contacting of at least one of the voltage drop measuring contacts. 4. The passive current sensor of claim 3 , wherein the elevation is monolithically formed from the busbar. 5. The passive current sensor of claim 1 , further comprising a temperature sensor electrically connected to the temperature measuring contacts and positioned near the shunt resistor. 6. The passive current sensor of claim 5 , wherein an electrical temperature contacting section of the temperature measuring contacts and/or the temperature sensor is accessible via an access recess of the support. 7. The passive current sensor of claim 6 , wherein the support has an access protection designed to close at least sections of the access recess. 8. The passive current sensor of claim 1 , wherein the voltage drop measuring contacts are each directly electrically and mechanically connected to the busbars at a connecting section. 9. The passive current sensor of claim 8 , wherein the connecting section of each of the voltage drop measuring contacts is accessible via an access recess of the support. 10. The passive current sensor of claim 1 , wherein the voltage drop measuring contacts each have a bending area connecting a busbar contacting area of the voltage drop measuring contacts with a plug connecting area of the voltage drop measuring contacts. 11. The passive current sensor of claim 1 , wherein the voltage drop measuring contacts are each held and/or secured in a pin-receiving opening of the support. 12. The passive current sensor of claim 1 , further comprising a dummy pin mechanically fixing a position of the support, the dummy pin connected to at least one of the busbars and at least one of the voltage drop measuring contacts. 13. A method for assembling a passive current sensor, comprising: inserting a pair of voltage drop measuring contacts and a pair of temperature measuring contacts into a support; positioning and fixing the support to at least one of a pair of electrically conductive busbars electrically and mechanically connected to each other by a shunt resistor; and attaching a voltage drop measuring contact directly to each of the busbars, each of the temperature measuring contacts is electrically insulated from the busbars and the shunt resistor. 14. An assembly for a passive current sensor, comprising: a support having a plurality of pin-receiving openings; a pair of voltage drop measuring contacts directly attached to a busbar; a pair of temperature measuring contacts, the voltage drop measuring contacts and the temperature measuring contacts are insertable in the plurality of pin-receiving openings; a temperature sensor electrically and mechanically connected to the temperature measuring contacts; and a shunt element including a pair of electrically conductive busbars and a shunt resistor electrically connecting the busbars to each other, the temperature measuring contacts are electrically insulated from the busbars and the shunt resistor.