Current measuring circuit, battery and motor vehicle

The invention claimed is: 1. A current-measuring circuit for redundantly measuring an electric current, comprising: a measuring resistor, a magnetic-field sensor, and an evaluation circuit on an evaluation-circuit printed circuit board configured to determine the electric current using the measuring resistor, wherein the magnetic-field sensor on the evaluation-circuit printed circuit board and the evaluation-circuit printed circuit board are arranged in the immediate vicinity of the measuring resistor such that the magnetic-field sensor is configured to detect the magnetic field of the measuring resistor when current flows through it, wherein the evaluation circuit is further configured to compare a primary signal corresponding to the current determined by the measuring resistor with a secondary signal corresponding to the current determined by the magnetic-field sensor and to output an error signal in the event that the two signals differ, wherein the evaluation-circuit printed circuit board having the magnetic-field sensor lies flat against the measuring resistor, and wherein an electrical isolator is arranged between the evaluation-circuit printed circuit board and the measuring resistor which electrically isolates the evaluation-circuit printed circuit board from the measuring resistor except for electrically conductive connections between the evaluation-circuit printed circuit board and measuring resistor. 2. The current-measuring circuit as claimed in claim 1 , wherein a distance between the magnetic-field sensor and the measuring resistor is less than 10 mm. 3. The current-measuring circuit as claimed in claim 2 , wherein the distance between the magnetic-field sensor and the measuring resistor is less than or equal to 5 mm. 4. The current-measuring circuit as claimed in claim 1 , wherein the measuring resistor has an electrical resistance of less than 1 mΩ. 5. The current-measuring circuit as claimed in claim 1 , wherein the magnetic-field sensor is a Hall sensor. 6. A battery, comprising: at least one battery cell; and a current-measuring circuit configured to redundantly measure an electrical current output by the at least one battery cell, the current-measuring circuit including: a measuring resistor, a magnetic-field sensor, and an evaluation circuit on an evaluation-circuit printed circuit board configured to determine the electric current using the measuring resistor, wherein the magnetic-field sensor on the evaluation-circuit printed circuit board and the evaluation-circuit printed circuit board are arranged in the immediate vicinity of the measuring resistor such that the magnetic-field sensor is configured to detect the magnetic field of the measuring resistor when current flows through it, wherein the evaluation circuit is further configured to compare a primary signal corresponding to the current determined by the measuring resistor with a secondary signal corresponding to the current determined by the magnetic-field sensor and to output an error signal in the event that the two signals differ, wherein the evaluation-circuit printed circuit board having the magnetic-field sensor lies flat against the measuring resistor, and wherein an electrical isolator is arranged between the evaluation-circuit printed circuit board and the measuring resistor which electrically isolates the evaluation-circuit printed circuit board from the measuring resistor except for electrically conductive connections between the evaluation-circuit printed circuit board and measuring resistor. 7. The battery as claimed in claim 6 , wherein the at least one battery cell is a lithium-ion battery cell. 8. A motor vehicle or electrical device, comprising: a battery including a current-measuring circuit configured to redundantly measure an electrical current, the current-measuring circuit including: a measuring resistor, a magnetic-field sensor, and an evaluation circuit on an evaluation-circuit printed circuit board configured to determine the electric current using the measuring resistor, wherein the magnetic-field sensor on the evaluation-circuit printed circuit board and the evaluation-circuit printed circuit board are arranged in the immediate vicinity of the measuring resistor such that the magnetic-field sensor is configured to detect the magnetic field of the measuring resistor when current flows through it, wherein the evaluation circuit is further configured to compare a primary signal corresponding to the current determined by the measuring resistor with a secondary signal corresponding to the current determined by the magnetic-field sensor and to output an error signal in the event that the two signals differ, wherein the evaluation-circuit printed circuit board having the magnetic-field sensor lies flat against the measuring resistor, and wherein an electrical isolator is arranged between the evaluation-circuit printed circuit board and the measuring resistor which electrically isolates the evaluation-circuit printed circuit board from the measuring resistor except for electrically conductive connections between the evaluation-circuit printed circuit board and measuring resistor.