Current measuring circuit, battery and motor vehicle

What is claimed is: 1. A current-measuring circuit for redundantly measuring an electric current, comprising: a measuring resistor having a first end comprising a first connector and a second end comprising a second connector, the first connector and the second connector being configured to connect the measuring resistor in series with a current carrying line; an evaluation-circuit printed circuit board that lies flat against the measuring resistor, the evaluation-circuit printed circuit board including a magnetic-field sensor and an evaluation circuit, wherein the evaluation circuit is electrically connected to the measuring resistor and is configured to measure a voltage drop across the measuring resistor when the electric current flows therethrough and determine a first value for the electric current flowing through the measuring resistor based on the measured voltage drop, and wherein the magnetic-field sensor is arranged on the evaluation-circuit printed circuit board in position to detect a magnetic field generated around the measuring resistor when the electric current flows through the measuring resistor, the evaluation circuit being configured to determine a second value for the electric current flowing through the measuring resistor based on the measured magnetic field. 2. The current-measuring circuit as claimed in claim 1 , wherein the evaluation circuit is further configured to compare the first value for the electric current to the second value for the electric current and to output an error signal in the event that the first value and the second value differ. 3. 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. 4. The current-measuring circuit as claimed in claim 3 , wherein the distance between the magnetic-field sensor and the measuring resistor is less than or equal to 5 mm. 5. The current-measuring circuit as claimed in claim 1 , wherein the measuring resistor has an electrical resistance of less than 1 mΩ. 6. The current-measuring circuit as claimed in claim 1 , wherein the magnetic-field sensor is a Hall sensor. 7. 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 having a first end comprising a first connector and a second end comprising a second connector, the first connector and the second connector being configured to connect the measuring resistor in series with a current carrying line; and an evaluation-circuit printed circuit board that lies flat against the measuring resistor, the evaluation-circuit printed circuit board including a magnetic-field sensor and an evaluation circuit, wherein the evaluation circuit is electrically connected to the measuring resistor and is configured to measure a voltage drop across the measuring resistor when the electric current flows therethrough and determine a first value for the electric current flowing through the measuring resistor based on the measured voltage drop, and wherein the magnetic-field sensor is arranged on the evaluation-circuit printed circuit board in position to detect a magnetic field generated around the measuring resistor when the electric current flows through the measuring resistor, the evaluation circuit being configured to determine a second value for the electric current flowing through the measuring resistor based on the measured magnetic field. 8. The battery as claimed in claim 7 , wherein the at least one battery cell is a lithium-ion battery cell. 9. 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 having a first end comprising a first connector and a second end comprising a second connector, the first connector and the second connector being configured to connect the measuring resistor in series with a current carrying line; an evaluation-circuit printed circuit board that lies flat against the measuring resistor, the evaluation-circuit printed circuit board including a magnetic-field sensor and an evaluation circuit, wherein the evaluation circuit is electrically connected to the measuring resistor and is configured to measure a voltage drop across the measuring resistor when the electric current flows therethrough and determine a first value for the electric current flowing through the measuring resistor based on the measured voltage drop, and wherein the magnetic-field sensor is arranged on the evaluation-circuit printed circuit board in position to detect a magnetic field generated around the measuring resistor when the electric current flows through the measuring resistor, the evaluation circuit being configured to determine a second value for the electric current flowing through the measuring resistor based on the measured magnetic field.