Temperature sensor and method for detecting a temperature of a battery cell

What is claimed is: 1. A temperature sensor for detecting a temperature of a battery cell, comprising: a first electrical conductor having a first end for connecting the first conductor to an element of the battery cell, and having a second end for attaching the first conductor to a first input of a measuring device; and a second electrical conductor having a first end for connecting the second conductor to the element of the battery cell, and having a second end for attaching the second conductor to a second input of the measuring device; wherein the first conductor is connected via the element in an electrically conductive manner to the second conductor, wherein a voltage is present between the second end of the first conductor and the second end of the second conductor, wherein the voltage represents the temperature and is detectable by the measuring device when the first end of the first conductor and the first end of the second conductor are connected to the element in an electrically conductive manner, and wherein the element of the battery cell includes a battery terminal and a cell connector, wherein the battery terminal includes a first electrically conductive material and the cell connector includes a second electrically conductive material that is different from the first electrically conductive material, wherein the first end of the first conductor is connectable to the battery terminal, and wherein the first end of the second conductor is connectable to the cell connector, and wherein the temperature is determined by determining a heat-conditioned voltage gradient between the battery terminal and the cell connector. 2. The temperature sensor as recited in claim 1 , wherein the temperature sensor has the element of the battery cell, and wherein the first end of the first conductor and the first end of the second conductor are connected to the element in an electrically conductive manner. 3. The temperature sensor as recited in claim 2 , wherein: the element has a first electrically conductive material, the second conductor has a second electrically conductive material that is different from the first electrically conductive material, and the first end of the first conductor and the first end of the second conductor are connected to the first electrically conductive material. 4. The temperature sensor as recited in claim 2 , wherein the first electrically conductive material and the second electrically conductive material have different Seebeck coefficients. 5. The temperature sensor as recited in claim 1 , wherein the element includes one of an electrical battery terminal of the battery cell and an electrically conductive housing of the battery cell. 6. The temperature sensor as recited in claim 1 , wherein at least one of the second end of the first conductor and the second end of the second conductor are thermally decoupled from the battery cell. 7. The temperature sensor as recited in claim 1 , wherein: the temperature sensor includes the measuring device, a first terminal of the measuring device is connected electrically conductively to the second end of the first conductor, and the second input of the measuring device is connected electrically conductively to the second end of the second conductor. 8. The temperature sensor as recited in claim 1 , wherein the first conductor and the second conductor are made of the same material. 9. The temperature sensor as recited in claim 1 , wherein the battery terminal is made of metal and projects from a housing of the battery cell and is connected to the cell connector, the cell connector having a plate configuration which has a through hole transversely situated in the plate. 10. The temperature sensor as recited in claim 9 , wherein the battery terminal is situated in the through hole, and is connected in a continuous material by a welding seam to the cell connector. 11. The temperature sensor as recited in claim 1 , wherein the battery terminal is made of metal and projects from a housing of the battery cell and is connected to the cell connector, the cell connector having a plate configuration which has a through hole transversely situated in the plate, wherein the battery terminal is situated in the through hole, and is connected in a continuous material by a welding seam to the cell connector, wherein the welding seam encircles the through hole, wherein the battery terminal penetrates the cell connector and closes on an upper side of the cell connector in a planar manner with the cell connector, and wherein the welding seam is applied from the upper side into a joining location between the battery terminal and the cell connector. 12. A battery cell, comprising: a galvanic element; and a temperature sensor including: a first electrical conductor having a first end for connecting the first conductor to an element of the battery cell, and having a second end for attaching the first conductor to a first input of a measuring device, and a second electrical conductor having a first end for connecting the second conductor to the element of the battery cell, and having a second end for attaching the second conductor to a second input of the measuring device, wherein: the first conductor is connected via the element in an electrically conductive manner to the second conductor, a voltage is present between the second end of the first conductor and the second end of the second conductor, the voltage represents the temperature and is detectable by the measuring device when the first end of the first conductor and the first end of the second conductor are connected to the element in an electrically conductive manner, and the element is thermally coupled to the galvanic element; wherein the element of the battery cell includes a battery terminal and a cell connector, wherein the battery terminal includes a first electrically conductive material and the cell connector includes a second electrically conductive material that is different from the first electrically conductive material, wherein the first end of the first conductor is connectable to the battery terminal, and wherein the first end of the second conductor is connectable to the cell connector, and wherein the temperature is determined by determining a heat-conditioned voltage gradient between the battery terminal and the cell connector. 13. The battery cell as recited in claim 12 , wherein the battery terminal is made of metal and projects from a housing of the battery cell and is connected to the cell connector, the cell connector having a plate configuration which has a through hole transversely situated in the plate. 14. The battery cell as recited in claim 13 , wherein the battery terminal is situated in the through hole, and is connected in a continuous material by a welding seam to the cell connector. 15. The battery cell as recited in claim 12 , wherein the battery terminal is made of metal and projects from a housing of the battery cell and is connected to the cell connector, the cell connector having a plate configuration which has a through hole transversely situated in the plate, wherein the battery terminal is situated in the through hole, and is connected in a continuous material by a welding seam to the cell connector, wherein the welding seam encircles the through hole, wherein the battery terminal penetrates the cell connector and closes on an upper side of the cell connector in a planar manner with the cell connector, and wherein the welding seam is applied from the upper side into a joining location between the battery terminal and the cell connector.