Patent ID: 8567229

Claim:
Method for calibrating a rotational angle sensor having a rotor ( 12 ) which is coupled to a rotating object (shaft 10 ) in a manner which is faithful to the rotational angle, a stator ( 16 ), and a scanning means ( 14 ) which is arranged on the stator ( 16 ), the scanning means ( 14 ) scanning a material measure of the rotor ( 12 ) and generating measured angle values associated with a rotational angle position of the rotor ( 12 ), said method having the following steps: providing a reference rotational angle sensor that measures the rotational angle position of the rotor ( 12 ) and generates reference angle values associated with the respective rotational angle position of the rotor ( 12 ); the measured angle values are compared with the reference angle values associated with the corresponding rotational angle position; a correction variable associated with the respective measured angle value is formed from the difference between the measured angle values and the reference angle values; the measured angle values (a n ) and their respective associated correction variables (c n ) are stored in the form of a correction table in a non-volatile memory ( 26 ); during measurement of the rotational angle, the measured angle values are corrected using the correction variable (c n ) which is associated with the respective measured angle value (a n ) and is stored in the correction table, and the corrected measured angle value is output in the form of an angle value ( 32 ); wherein a laser gyroscope ( 18 ) is used as a reference rotational angle sensor, in that the laser gyroscope ( 18 ) is coupled to the rotating object (shaft 10 ) in a manner which is faithful to the rotational angle in order to calibrate the rotational angle sensor and rotates, with said object, around the axis of the object (shaft 10 ), in that the signals from the laser gyroscope which are dependent on the angular velocity of the object (shaft 10 ) are integrated over time with respect to the rotational angle for one revolution of the object (shaft 10 ), in that each rotational angle position is associated with, as a reference angle value, the signals from the laser gyroscope ( 18 ) which have been integrated as far as this rotational angle position, wherein the laser gyroscope ( 18 ) is releasably coupled to the object (shaft 10 ), in that the laser gyroscope ( 18 ) is coupled to the object (shaft 10 ) following installation of the rotational angle sensor for the purpose of calibration, and in that the laser gyroscope ( 18 ) is separated from the object (shaft 10 ) again following calibration, and wherein the signals of the laser gyroscope ( 18 ) are error compensated before being compared with the measured angle values.